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I N STR UCTION MAN UAL
OR IG I NAL I N STR UCTION S
R EAD AN D U N D E R STAN D TH I S MAN UAL PR IOR TO OPE RATI NG
OR S E RVICI NG TH I S PROD UCT.
TopLobeROTARY LOB E PU M PS
A.0500.251 – I M-TL/15.00 E N (11/2011)
EC-Declaration of conformity(according to EC Machinery Directive 2006/42/EC, Annex IIA)
ManufacturerSPX Flow Technology Sweden ABP.O. Box 1436SE-701 14 Örebro Sweden
We hereby guarantee that TopLobe rotary lobe pumps
type: TL1/0039 TL3/0234 TL1/0100 TL3/0677 TL1/0139 TL3/0953
TL2/0074 TL4/0535 TL2/0234 TL4/2316 TL2/0301 TL4/3497
comply with the EC Machinery Directive 2006/42/EC, Annex I.
Manufacturer Declaration(according to EC Machinery Directive 2006/42/EC, Annex IIB)
The product must not be put into service until the machinery intowhich it is to be incorporated has been declared conform with the provisions of the Directive.
Örebro, Sweden, 1 January 2010
Michael Strålman Managing Director
3A.0500.251 – IM-TL/15.00 EN (11/2011)
Table of Contents
1.0 Introduction ...............................................................................................71.1 General ................................................................................................................7
1.1.1 Intended Use ............................................................................................................... 7
1.2 Receipt, storage and handling .......................................................................71.2.1 Receipt, storage ......................................................................................................... 71.2.2 Handling ....................................................................................................................... 8
1.3 General safety instructions .............................................................................91.3.1 General ......................................................................................................................... 91.3.2 Pump units .................................................................................................................11
1.3.2.1 Pump unit handling.............................................................................................. 111.3.2.2 Installation ............................................................................................................ 111.3.2.3 Before commissioning the pump unit ............................................................. 121.3.2.4 Disassembly/assembly of the coupling guard .............................................. 121.3.2.5 Name plate – CE Declaration of Conformity ................................................ 12
1.4 Pump designation .......................................................................................... 131.5 Pump model and serial number .................................................................. 151.6 Pump standard parts ..................................................................................... 15
2.0 Function, construction, installation ................................................... 162.1 Operating principle ........................................................................................ 162.2 Operating parameters ................................................................................... 162.3 System design and installation ................................................................... 17
2.3.1 Installations with CIP-systems, Cleaning In Place ...........................................182.3.2 Installations with SIP-systems, Sterilising In Place ..........................................19
2.4 Start .................................................................................................................. 192.5 Shutdown ........................................................................................................ 202.6 Routine maintenance .................................................................................... 202.7 Typical CIP (Cleaning In Place) cycle ....................................................... 202.8 Typical COP (Cleaning Out of Place) cycle ............................................ 202.9 Trouble shooting chart .................................................................................. 21
3.0 Technical data ....................................................................................... 223.1 Rotor clearances ............................................................................................ 22
3.1.1 Rotors in duplex steel..............................................................................................22
3.2 Lubricants ........................................................................................................ 233.3 Material specification .................................................................................... 24
3.3.1 Machined parts – Pump .........................................................................................24
3.4 Dimensional drawings and weights ........................................................... 253.4.1 Standard – Horizontal .............................................................................................253.4.2 Vertical mounting – thread connection ...............................................................263.4.3 Vertical mounting – flange conncection .............................................................273.4.4 Flanges .......................................................................................................................28
3.4.4.1 Standard pump .................................................................................................... 283.4.4.2 Enlarged inlet ........................................................................................................ 28
3.4.5 Thread and clamp connections ............................................................................293.4.6 DIN and ANSI flanges ............................................................................................31
3.5 Weights ............................................................................................................ 323.5.1 Weights standard pump .........................................................................................32
3.6 Sound level ...................................................................................................... 333.7 Solid particles ................................................................................................. 33
4 A.0500.251 – IM-TL/15.00 EN (11/2011)
4.0 Disassembly and assembly instruction ............................................ 344.1 Tools to be used ............................................................................................. 344.2 General instructions ...................................................................................... 354.3 O-rings and lip seals ..................................................................................... 354.4 Shutdown ....................................................................................................... 354.5 Tightening torque [Nm] for nuts and screws ........................................... 364.6 Disassembly .................................................................................................... 37
4.6.1 Pump cover and rotor removal ..............................................................................374.6.2 Disassembly of seals ...............................................................................................37
4.6.2.1 Single mechanical seal ...................................................................................... 384.6.2.2 Lip Seal .................................................................................................................. 384.6.2.3 O-ring seal ............................................................................................................ 384.6.2.4 Double mechanical seal ..................................................................................... 39
4.6.3 Rotor case and Flushing cover disassembly .....................................................394.6.4 Gearbox disassembly ..............................................................................................404.6.5 Foot disassembly .....................................................................................................42
4.7 Assembly .......................................................................................................... 424.7.1 Foot assembly ..........................................................................................................424.7.2 Gearbox assembly ...................................................................................................434.7.3 Flushing cover assembly ........................................................................................464.7.4 Rotor case assembly ...............................................................................................474.7.5 Seal assembly ...........................................................................................................47
4.7.5.1 Single mechanical seal - general ..................................................................... 474.7.5.2 Single mechanical seal ....................................................................................... 484.7.5.3 Lip seal ................................................................................................................... 484.7.5.4 O-ring seal ............................................................................................................ 494.7.5.5 Double mechanical seal ..................................................................................... 49
4.7.6 Rotor and pump cover assembly ..........................................................................50
5.0 Special tools .......................................................................................... 525.1 General ............................................................................................................. 525.2 Assembly tool for lip seals ........................................................................... 525.3 Assembly tool for lip seal ............................................................................. 535.4 Assembly tool for needle bearings ............................................................. 535.5 Assembly tool for cover ................................................................................ 545.6 Assembly tool for lip seals ........................................................................... 54
6.0 Sectional drawings and part lists ...................................................... 556.1 Overview .......................................................................................................... 556.2 Recommended spare parts ......................................................................... 56
6.2.1 Recommended spare parts ...................................................................................57
6.3 Hydraulic part ................................................................................................ 586.3.1 Hydraulic part complete .........................................................................................586.3.2 TopKits Options ........................................................................................................59
6.3.2.1 Kit for flush covers ............................................................................................... 596.3.2.2 Service kit for quench/flush ............................................................................... 606.3.2.3 O-ring kit for hydraulic part .............................................................................. 616.3.2.4 O-ring kit for hydraulic part with safety relief valve ...................................... 62
6.3.3 Rotor case options ..................................................................................................636.3.4 Pump cover ..............................................................................................................63
6.3.4.1 Flat pump cover .................................................................................................. 63
6.4 Gearbox .......................................................................................................... 646.4.1 Gearbox, complete ..................................................................................................64
6.4.1.1 Parts list – Gearbox ........................................................................................... 656.4.2 Feet options...............................................................................................................666.4.3 Service kit for gearbox ............................................................................................67
5A.0500.251 – IM-TL/15.00 EN (11/2011)
7.0 Single mechanical seal ........................................................................ 687.1 General information ....................................................................................... 687.2 Machined parts – Seal assembly parts and flush covers ..................... 697.3 Seal options .................................................................................................... 70
7.3.1 Single mechanical seal ..........................................................................................707.3.2 Single mechanical seal with quench/flush .........................................................71
7.4 O-ring kit for single mechanical seal with/without quench/flush ........ 72
8.0 Double mechanical seal ...................................................................... 738.1 General ............................................................................................................. 738.2 Machined parts – Seal assembly parts and flush covers ..................... 748.3 Seal options .................................................................................................... 75
8.3.1 Double mechanical seal M74-D60 – TL2/0074 and TL3/0234 ..................758.3.2 Double mechanical seal M74-D60 –
TL4/0535, TL4/2316 and TL4/3497 ..................................................................768.3.3 Double mechanical seal M74-D61 –
TL2/0234, TL2/0301, TL3/0677, TL3/0953 ....................................................77
8.4 O-ring kit for double mechanical seal ...................................................... 78
9.0 Single and Double O-ring seal .......................................................... 799.1 General information ....................................................................................... 799.2 Seal options .................................................................................................... 80
9.2.1 Single O-ring seal ....................................................................................................809.2.2 Double O-ring seal with quench/flush ................................................................81
9.3 O-ring kit .......................................................................................................... 829.3.1 O-ring kit for single O-ring seal ............................................................................829.3.2 O-ring kit for double O-ring seal ..........................................................................83
10.0 Hard lip seal ........................................................................................... 8410.1 General ............................................................................................................. 8410.2 Seal options .................................................................................................... 85
10.2.1 Hard lip seal – TL1, TL2, TL3 ...............................................................................8510.2.2 Hard lip seal – TL4 ..................................................................................................8610.2.3 Hard lip seal with quench/flush – TL1, TL2, TL3 .............................................8710.2.4 Hard lip seal with quench/flush – TL4 ................................................................88
10.3 O-ring kit for hard lip seal with/without quench/flush ........................... 89
11.0 Quench and Flush connections ........................................................ 9011.1 Seal plans ........................................................................................................ 90
11.1.1 Pump connections in horizontal position ............................................................9011.1.2 Pump connections in vertical position ................................................................92
6 A.0500.251 – IM-TL/15.00 EN (11/2011)
12.0 Valves ...................................................................................................... 9412.1 Heating and cooling jackets ........................................................................ 9412.2 Built-on safety relief valves .......................................................................... 94
12.2.1 General description ................................................................................................9512.2.2 Safety relief valve - Spring Loaded ......................................................................96
12.2.2.1 Spring Loaded ...................................................................................................... 9612.2.2.2 Spring loaded completely opened .................................................................. 96
12.2.3 Safety relief valve - Spring loaded - air lifted ....................................................9712.2.3.1 Spring loaded - air lifted .................................................................................... 9712.2.3.2 Spring loaded - air lifted with CIP/SIP valve function ................................ 98
12.2.4 Setting and operating – Spring loaded and spring loaded - air lifted ........9812.2.5 Safety relief valve – Air loaded - air lifted ........................................................ 100
12.2.5.1 Air loaded ............................................................................................................10012.2.5.2 Air loaded - air lifted with CIP/SIP valve function......................................100
12.2.6 Setting and operating – Air loaded - air lifted safety relief valves ............ 101
13.0 Disassembly/Assembly .....................................................................10313.1 Spring loaded valves ...................................................................................103
13.1.1 Disassembly ........................................................................................................... 10313.1.2 Assembly ................................................................................................................. 103
13.2 Spring loaded - air lifted valves ................................................................10413.2.1 Disassembly ........................................................................................................... 10413.2.2 Assembly ................................................................................................................. 104
13.3 Air loaded - air lifted valves ......................................................................10513.3.1 Disassembly ........................................................................................................... 10513.3.2 Assembly ................................................................................................................. 105
14.0 Dimensional drawings and weights ................................................10614.1 Safety relief valves with heating/cooling jacket ....................................10614.2 Weights safety relief valve .........................................................................107
15.0 Sectional drawings and parts lists .................................................10815.1 Pump cover with safety relief valve – spring loaded ...........................10815.2 Pump cover with safety relief valve – spring loaded - air lifted .........10915.3 Pump cover with safety relief valve –
air loaded - air lifted – TL1, TL2, TL3.....................................................11015.4 Pump cover with safety relief valve –
air loaded - air lifted – TL4 .......................................................................111
7A.0500.251 – IM-TL/15.00 EN (11/2011)
1.0 Introduction
1.1 GeneralThe range of TopLobe rotary lobe pumps are manufactured by SPX, and are sold and marketed by a network of authorized distributors.
This instruction manual contains necessary information of the TopLobe pumps and must be read carefully before installation, service and maintenance. The manual must be kept easily accessible by the operator.
Important!If it is proposed to modify the system/duty or to use the pump for transporting liquids with other characteristics than for which the pump was originally selected always consult your local supplier.
For additional information regarding the TopLobe pumps, please contact your local supplier.
1.1.1 Intended UseThe TopLobe Rotary Lobe Pumps are exclusively intended for pumping liquids, especially in beverage and food installations as well as in comparable applications of the chemical, pharmaceutical and health care industries.
Its use is permissible only within the admissible pressure and temperature margins and under consideration of chemical and corrosive influences.
Any use exceeding the margins and specifications set forth, is considered to be not intended. Any damage resulting therefrom is not within the responsibility of the manufacturer. The user will bear the full risk.
Attention: Improper use of the pumps leads to:
• damage • leakage • destruction.
• Failures in the production process are possible
1.2 Receipt, storage and handling1.2.1 Receipt, storage
Check the consignement for damage immediately on arrival. In case of damage, clearly mark upon the carrier’s paperwork (with a brief description of the damage) that the goods have been received in a damaged condition. Notify your local supplier.
Always state the pump model and serial number when asking for assistance. This information can be obtained from the pump name plate which is located on the pump gearbox.
Should the nameplate be unreadable or missing, the serial number is also stamped on the gearbox and the rotor case. If the pump is not installed immediately, it must be stored in a suitable environment.
8
TopLob
e
Johnson Pump Belgium N.V.
Steylsstraat 75, Brussels, Belgium
Tel.+32 2 422 15 76. Fax +32 2 422 15 89
Tested and approved by
Serial No:Article No:Model: TL
Temp max °C:
Pressure max bar:
A.0500.251 – IM-TL/15.00 EN (11/2011)
1.2.2 HandlingCaution must be taken when lifting the pump. All parts with a weight of more than 20 kg must be lifted using lifting slings and suitable lifting devices.
Lifting eye fitted to pump must only be used to lift the pump, not the pump with drive and/or baseplate.
If the pump is baseplate mounted, the baseplate must be used for all lifting purposes. When using slings, they must be safely and securely attached. (1.3 Safety instructions)
9A.0500.251 – IM-TL/15.00 EN (11/2011)
1.3 General safety instructions1.3.1 General
This information must be read carefully before installation, operation or servicing and always readibly be available to the pump operator.
Instructions which can affect personal safety if not followed, are marked with this symbol
Instructions to be considered for safe operations or to protect the pump/pump unit are marked with this symbol
When ATEX pump/pump unit is supplied, the separate ATEX manual must be considered
• Incorrect installation, operation or maintenance of the equipment can cause serious personal injury and/or damage to the equipment and will invalidate the warrenty.
• Never operate the pump if the pump cover or suction and discharge pipework are not in place. Likewise, never operate the pump if other protection such as coupling and touch guards are missing or incorrectly fitted.
• Never stick your fingers inside the rotor case, connections to the casing or in the end cover if there is any possibility that the pump shafts may rotate. This can lead to serious personal injury.
• Do not exceed the pump’s maximum operating pressure, speed or temperature. Do not modify the operating parameters/system for which the pump was orginally delivered without first consulting your local supplier.
• Pump installation and operation must always comply with prevailing health and safety regulations.
• Some sort of safety equipment should be connected to the pump, system or the drive to prevent the pump from exceeding maximum allowable pressure. The safeguard system must be configured to handle reverse flow where applicable. Do not operate the pump with a closed/blocked discharge unless a safety relief valve is incorporated. If an integrated safety relief valve is incorporated into the pump, do not allow extended periods of recirculation through the relief valve.
• The installation of the pump/pump unit must be sturdy and stabile. Pump orientation must be considered with respect to drainage requirements. Once mounted, check the alignment between the pump and the drive assembly. Misalignment of the pump, drive and shaft coupling will result in unnecessary wear, increased operating temperatures and noisier operation.
• Fill the pump´s and drive´s gearboxes with the recommended lubricants and amounts.Change the lubricants at the recommended intervals.
• Before operating the pump, make sure that it and the pipe system are clean and free from debris and that all the valves in the suction and discharge pipelines are fully opened. Make sure that all pipework connected to the pump is fully supported and correctly aligned. Misalignment and/or excessive loads will cause severe damage to the pump.
• Make sure that the pump rotation is correct for the desired flow direction.
• Do not install the pump into a system where it may run dry (i.e. without a supply of pumped media) unless it is equipped with a flushed shaft seal arrangement, complete with a fully operational flushing system.
• Install pressure gauges/sensors in conjuction with the pump’s suction and discharge connections to monitor the pump’s pressure.
10 A.0500.251 – IM-TL/15.00 EN (11/2011)
• Caution must be taken when lifting the pump, appropriate lifting devices should be used if possible. Lifting rings fitted to the pump are only to be used for lifting the pump, not for lifting the pump with drive and/or baseplate. For baseplate mounted pumps the baseplate is to be used for all lifting purposes. If slings are used for lifting, they must be safely and securely attached.
• Do not attempt maintenance work or disassembly of the pump or pump unit without making sure that the power switch to the drive unit (electric, hydraulic or pneumatic) is locked and cannot be switched on. Depressurize and purge any pressure relief valve and/or shaft seal flushing system. Check that any other associated equipment is turned off and disconnected. Allow the pump and components to cool down to a safe handling temperature.
• Do not attempt to dismantle a safety/pressure relief valve whose spring pressure has not been relieved, is connected to a pressurized gas/air supply or mounted on a pump in operation. Serious personal injury and/or damage to the pump may occur.
• Do not attempt to loosen or remove the pump cover, connections to the pump, shaft seal housings, pressure/temperature control devices or other components until you are sure that such actions will not lead to the unsafe escape of any pressurized media.
• The pump installation must allow for safe routine maintenance and inspection (check for leakage, change of lubricants, pressure monitoring, etc) and provide adequate ventilation to prevent overheating.
• Pumps and/or drive units can produce sound levels in excess of 85dB(A) under unfavorable operating conditions. When necessary, personal protection against noise must be used. See the curves for sound levels in “Section 3.6’’.
• Avoid any contact with hot parts of the pumps or drive units which may cause personal injury. If the surface temperature of the system exceeds 60°C, the system must be marked with a warning sign of “hot surface”. Operating conditions with temperature control devices (jacketed, electrically heated, etc), bad installation or poor maintenance can promote unnormally high temperatures on pumps and/or drive units.
• When cleaning, either manually or by CIP method, the operator must ensure that a suitable procedure is used in accordance with the system requirements. During a CIP cleaning cycle, a pump differential pressure of between 2 and 3 bar is recommended to ensure that suitable velocities are reached in the pump head. The exterior of the pumps should be cleaned periodically.
Pumps must always be installed and operated in compliance with prevailing national and local health and safety regulations and legislation. The pump must be completely isolated from the pipe work and drive motor before any maintenance work is to be undertaken. In the event of hazardous products the system, as well as the pump, must be drained. Never operate the pump without the pump cover.
Always follow all applicable safety measures when manually cleaning the pump:
• Drive unit must be shut down so that it cannot be started.
• Any compressed air controlled, mounted safety relief valve must be closed and depressurized.
• Connections to flushed mechanical seals must be closed and depressurized.
• The pump and pipe work must be drained and depressurized.
Equipment that is incorrectly installed, operated in a dangerous manner or is poorly maintained poses a potential safety hazard. If all reasonable safety measures are not followed, serious personal injury and material damage may occur.
11A.0500.251 – IM-TL/15.00 EN (11/2011)
Secure lifting slings around the front part of the pump and the back part of the motor. Make sure that the load is balanced before attempting the lift. NB! Always use two lifting slings.
If there are lifting rings on both the pump and the motor the slings may be fastened to these. NB! Always use two lifting slings.
WarningNever lift the pump unit with only one fastening point. Incorrect lifts can result in personal injury and/or damage to the unit.
1.3.2 Pump units1.3.2.1 Pump unit handling
Use an overhead crane, forklift or other suitable lifting device.
1.3.2.2 Installation
All pump units should be equipped with a locking safety switch to prevent accidental start during installation, maintenance or other work on the unit.
WarningThe safety switch must be turned to off and locked before any work is carried out on the pump unit. Accidental start can cause serious personal injury.
The pump unit must be mounted on a level surface and either be bolted to the foundation or be fitted with rubber-clad feet.
The pipe connections to the pump must be stress-free mounted, securely fastened to the pump and well supported. Incorrectly fitted pipe can damage the pump and the system.
WarningElectric motors must be installed by authorized personnel in accordance with EN60204-1. Faulty electrical installation can cause the pump unit and system to be electrified, which can lead to fatal injuries.
Electric motors must be supplied with adequate cooling ventilation. Electric motors must not be enclosed in airtight cabinets, hoods etc.
Dust, liquids and gases which can cause overheating and fire must be diverted away from the motor.
WarningPump units to be installed in potentially explosive environments must be fitted with an Ex-class (explosion safe) motor. Sparks caused by static electricity can give shocks and ignite explosions. Make sure that the pump and system are properly grounded. Check with the proper authorities for the existing regulations. A faulty installation can lead to fatal injuries.
12 A.0500.251 – IM-TL/15.00 EN (11/2011)
1.3.2.3 Before commissioning the pump unit
Read the pump’s operating and safety manual. Make sure that the installation has been correctly carried out according to the relevant pump’s manual.
Check the alignment of the pump and motor shafts. The alignment may have been altered during transport, lifting and mounting of the pump unit. For safe disassembly of the coupling guard see below: Disassembly/assembly of the coupling guard.
WarningThe pump unit must not be used with other liquids than those for which it was recommended and sold. If there are any uncertainties contact your supplier. Liquids, for which the pump is not appropriate, can damage the pump and other parts of the unit as well as cause personal injury.
1.3.2.4 Disassembly/assembly of the coupling guard
The coupling guard is a fixed guard to protect the users and operator from fastening and injuring themselves on the rotating shaft/shaft coupling. The pump unit is supplied with factory mounted guards with certified maximum gaps in accordance with standard DIN EN ISO 13857.
WarningThe coupling guard must never be removed during operation. The locking safety switch must be turned to off and locked. The coupling guard must always be reassembled after it has been removed. Make sure to also reassemble any extra protective covers. There is a risk of personal injury if the coupling guard is incorrectly mounted.
a) Turn off and lock the power switch.
b) Disassemble the coupling guard.
c) Complete the work.
d) Reassemble the coupling guard and any other protective covers. Make sure that the screws are properly tightened.
1.3.2.5 Name plate – CE Declaration of Conformity
Always quote the serial number on the name plate together with questions concerning the pump unit, installation, maintenance etc.
When changing the operating conditions of the pump please contact your local supplier to ensure a safe and reliable working pump.
This also applies to modifications on a larger scale, such as a change of motor or pump on an existing pump unit.
13A.0500.251 – IM-TL/15.00 EN (11/2011)
1.4 Pump designation
Example:
1. Pump family name TL = TopLobe
2. Gearbox size 1, 2, 3, 4
3/4. Hydraulics indicated with displacement volume per revolution and connection diameter
Displacement Connection diameter volume per revolution (in dm3) Standard pump Enlarged inlet
TL1/0039 0.039 25 25/40
TL1/0100 0.100 25 25/40
TL1/0139 0.139 40 40/50
TL2/0074 0.074 25 25/40
TL2/0234 0.234 40 40/50
TL2/0301 0.301 50 –
TL3/0234 0.234 40 40/50
TL3/0677 0.677 50 50/80
TL3/0953 0.953 80 80/100
TL4/0535 0.535 50 50/80
TL4/2316 2.316 100 –
TL4/3497 3.497 150 –
5. Connection type 01 Hygienic threaded connection to DIN 11851/DIN 405
02 PN16 flanges to DIN 2633
03 PN25 flanges to DIN 2634
04 Threaded connection to ISO 2853
05 Threaded connection for dairy industry BS 4825
06 SMS 1145 threaded connections
07 Clamp to ISO 2852
08 Flanges to ANSI B16,5 – 150 lbs
09 Flanges to ANSI B16,5 – 300 lbs
10 Gas thread ISO 7/1
11 DS 722 thread
12 Clamp to SMS 3017 (Triclamp)
13 NPT thread to ASA B2.1
14 Clamp to DIN 32676
6. Lobe 1 Trilobe in stainless steel
TL 2/ 0234- 40/ 06- 1 1- GB1 1- V V S 1 2 3 4 5 6 7 8 9 10 11 12
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Example:
7. Pump cover 1 Cover 2 Cover with relief valve – Spring loaded 3 Cover with relief valve – Spring loaded - air lifted 4 Cover with relief valve – Air loaded - air lifted 5 Cover with jacket 6 Cover with relief valve – Spring loaded with jacket 7 Cover with relief valve – Spring loaded - air lifted with jacket 8 Cover with relief valve – Air loaded - air lifted with jacket
8. Seals GW1 Single mechanical seal SiC to SiC GB1 Single mechanical seal SiC to Carbon GW2 Single mechanical seal SiC to SiC quench/flush GB2 Single mechanical seal SiC to Carbon quench/flush
L1 Hard lip seal L2 Hard lip seal with flushing
DW2 Double mechanical seal SiC to SiC to Carbon DB2 Double mechanical seal Carbon to SiC to Carbon
O1 Single O-ring seal DO2 Double O-ring seal with flushing
9. Feet 1 Horizontal 2 Vertical for thread connection 3 Horizontal with shaft in bottom drive position 4 Vertical for flange connection
10. Kits for different O-ring material for the hydraulic part V FPM E EPDM VF FPM-FDA approved EF EPDM - FDA approved T PTFE lined O-rings approved C Chemraz®
K * Kalrez®
11. Kits for different O-ring materials for seals V FPM E EPDM VF FPM-FDA approved EF EPDM - FDA approved T PTFE lined O-rings approved C Chemraz®
K * Kalrez®
12. Special execution
For details please contact your supplier. Position deviating from standard marked with X
* Kalrez is a registered trademark of DuPont Performance Elastomers.
TL 2/ 0234- 40/ 06- 1 1- GB1 1- V V S 1 2 3 4 5 6 7 8 9 10 11 12
15A.0500.251 – IM-TL/15.00 EN (11/2011)
1.6 Pump standard partsTo avoid mistakes kindly always use the following terms for the different pump parts
1.5 Pump model and serial numberIf you require further information regarding the TopLobe pumps, please contact your local supplier quoting the pump model and serial number. This information is stated on the nameplate which is attached to the pump gearbox. If the nameplate is damaged or missing, the serial number is also stamped on the gearbox and rotorcase.
Rear bearings
Drive shaft
Gearbox coverTiming gearsGearbox
Front bearingsRotor case
Retainer
Rotor
Pump cover
Air breather
Seal cover
Foot
Lay shaft
Flush cover
16
a b c d e
A.0500.251 – IM-TL/15.00 EN (11/2011)
The pump is not to be exposed to rapid temperature changes to avoid damage through sudden expansion/contraction of the pump components.
Pumps for handling abrasive liquids (causing wear) should be selected with care. Please contact your local supplier for advice.
Important!If it is proposed to modify the system/duty or to use the pump for transporting liquids with other characteristics than for which the pump was originally selected always consult your supplier.
2.2 Operating parametersThe maximum pressure and speed operating data are given in the table below. In practice these performance data can be limited by the nature of the pumped media and/or the design of the system in which the pump is installed.
2.0 Function, construction, installation
2.1 Operating principleLiquid is drawn into the pump as the rotors disengage, forming cavities. The liquid is transported in the cavity of the rotors around the periferi of the rotor case. Liquid is pressured out from the pump as the rotors engage, closing the cavities.
Pump typeMax
pump speed [rpm]
Swept volume [dm3]
Theoretical capacity at max speed and
∆p = 0 bar [m3/h]
Max differential pressure
[bar]
Max operating pressure
[bar]
Max torque on shaft
end [Nm]
Max liquid temperature
°C
TL1/0039 1450 0.039 3.4 22 25 53 70
TL1/0100 950 0.100 5.7 12 15 53 70
TL1/0139 950 0.139 7.9 7 10 53 70
TL2/0074 1450 0.074 6.5 22 25 108 70
TL2/0234 950 0.234 13.3 12 15 108 70
TL2/0301 950 0.301 17.1 7 10 108 70
TL3/0234 1200 0.234 16.8 22 25 400 70
TL3/0677 720 0.677 29.2 12 15 400 70
TL3/0953 720 0.953 41.2 7 10 400 70
TL4/0535 950 0.535 30.5 22 25 1200 70
TL4/2316 600 2.316 83.4 12 15 1200 70
TL4/3497 600 3.497 125.9 7 10 1200 70
Max pump speed = nmax
Swept volume = Vi
Theoretical capacity at max speed and ∆p = 0 bar =Qthmax
Max differential pressure = ∆pmax
Max operating pressure = pmax
Max torque on shaft end = Tmax
17A.0500.251 – IM-TL/15.00 EN (11/2011)
2.3 System design and installationWhen a pump is to be incorporated in a system, it is considered good practice to, as far as possible, minimise the length of the pipes and the number of pipe fittings (tees, unions, bends etc.) and the restrictions. When designing the suction lines, particular care should be taken. These should be as short and straight as possible, using a minimum of pipe fittings to achieve a good product flow to the pump. Always consider the following when designing a system:
1. Ensure there is space enough around the pump to allow for: a) Routine check and maintenance of the complete pump unit, seal area, drive motor, etc.
b) Good ventilation for the drive to avoid overheating.
2. Both the suction and the discharge ports must be provided with valves. During check-up procedures or maintenance work, the pump must be isolated from the system.
3. The system design, pipes and other equipment must have independant supports to avoid heavy loads on the pump. In the case of pipe work or other equipment relying on the pump fixings for support, there is a big risk for serious damage to the pump.
4. For positive displacement pumps as TopLobe it is recommended to install some safeguards, for example: a) Built-on safety relief valvesb) External pressure relief valve system for recirculation to tank or suction side of the
pump.c) Torque device in the system, mechanical or electrical.d) Rupture disc in the discharge pipework.
If the system can be ruined by reversed flow direction, safeguards must be considered for both directions of rotation/flow.
5. It is considered good practice to thoroughly clean all pipework and associated equipment from the suction port to the discharge port before installation of pump. This is to avoid the risk of debris entering the pump and causing damage.
6. If possible, pressure gauges should be placed at the suction port and the discharge port of the pump, so that the system pressures can be monitored. These gauges give a clear indication of changes in the operating conditions. If a relief valve is incorporated in the system the gauges will be necessary for setting and checking the function of the valve.
7. It is very important that the suction condition at the pump inlet meets the NPSH required of the pump. Failure to observe this can cause cavitation, which leads to a noisy operation, reduced flow and mechanical damage on the pump and associated equipment.
The NPSH available from the system must always exceed the NPSH required by the pump. If the following guidelines are observed it should ensure the best possible suction conditions.
• The suction line should have at least the same diameter as the pump connections.
• The suction line should be as short as possible.
• Use a minimum of bends, tees and pipework restrictions.
• The calculations to determine the NPSH available from the system should be carried out for the worst condition, see vacuum table.
• If a filter is used on the suction pipe, check pressure drop at the actual flow. This is important to avoid cavitation which can damage the pump.
Please contact your local supplier if you require information on the pump or system NPSH characteristics.
18 A.0500.251 – IM-TL/15.00 EN (11/2011)
Vacuum table
Atmospheric pressure
For conditions with positive suction head
Absolutevacuum
8. When installing a pump complete with drive motor and baseplate the following guidelines must be observed:
a) The most suitable drive for the TopLobe pumps is to use a motor with direct coupling. Please contact your local supplier if using some other method.
b) Flexible couplings must always be used and aligned correctly within the limits recommended by the coupling manufacturer. Turn the shaft at least one full rotation to control the alignment of the coupling and that the shaft rotates smoothly.
c) Couplings must always be enclosed in a suitable guard to prevent contact with rotating parts which could cause personal injury. Such guards must be of suitable material - see point d - and be of sufficiently rigid design to prevent contact with the rotating parts during normal operation.
d) When installing pump sets in flammable or explosive environments or for handling flammable or explosive media, special consideration must be given not only regarding the security of the drive unit enclosure, but also for the materials used both in couplings and guards to eliminate the risk of explosion.
e) The base plate must be secured to a flat level surface to avoid misalignment and distortion. When the baseplate is fastened in position, the alignment must be checked again, see point b.
f) If the pump is driven by an electric motor, check that the motor and other electrical equipment are compatible with the drive and that the wiring is correct, i.e. Direct On-Line, Star Delta etc. Ensure that all components are correctly electrically grounded.
2.3.1 Installations with CIP-systems, Cleaning In PlaceThe TopLobe pumps are constructed so that they easily can be cleaned with CIP- methods for cleaning of processing plants. To achieve the necessary fluid velocities within the pump when cleaning we recommend a differential pressure of 2-3 bars across the pump.
Recommendation: A built-on safety relief valve with air lift, creates the possibility to achieve a full flow in the pipe work without using separate by-pass piping.
For suction lift orvacuum conditions
NPSH available
Suction liftor vacuum
Suction linefriction loss
Vapourpressure
≅10 mwater
column
Suctionhead
NPSH available
Suction linefriction loss
Vapourpressure
19
Direction of rotation
Suction Discharge Suction
RotationRotation
A.0500.251 – IM-TL/15.00 EN (11/2011)
2.4 Start• Make sure that all associated equipment is clean and free from debris and that all pipe
connections are secure and correctly sealed.
• For pumps fitted with quenched/flushed product seals check that all required services for flushing purposes are in place and connected. They must give sufficient flow and pressure for the flushing purposes. Contact your supplier for advice. For seal plans, see chapter 11.0. Check the lubrication for the pump and drive. The TopLobe pumps are delivered without oil and should be filled to the level of the oil level glass. See “Section 3.2’’ regarding pump oil capacities and grades.
• If an external relief valve is incorporated in the system, check that it is set correctly. It is considered good practice to set the relief valve lower than the system design pressure. After commissioning, the relief valve should be reset to the required setting for the application. The required setting should never exceed the lower of either the pumps maximum pressure rating or the system design pressure setting for the application. The required setting should never exceed the lower of either the pumps maximum pressure rating or the system design pressure.
• Check that the valves are completely open on both inlet and outlet and that the pipelines are free from obstructions. The TopLobe pumps are of the positive displacement type and should therefore never be operated against a closed valve, as this would result in pressure overload, damages on the pump and possibly damage on the pump system.
• Check that the drive shaft has the correct direction of rotation for required flow, see figure below.
•
•
•
•
•
•
•
•
•
• Before starting the pump, make sure that there is liquid on the suction side. This is very important for pumps with unflushed product seals as these sealing arrangements must never run dry.
• Before operating the pump, briefly start and stop it to check the direction of rotation and to make sure that there are no obstructions of the function. Keep a visual check on the suction and discharge pressure gauges and monitor the pump temperature and absorbed power.
2.3.2 Installations with SIP-systems, Sterilising In PlaceTopLobe pumps are capable of handling a SIP-process. Contact your local supplier for information regarding the temperatures needed for the process, as temperature has an effect on the clearances in the pump.
Equipment components may need sterilising, i.e. heating to high temperatures (up to 140°C) to kill organisms still remaining on the surface of the equipment. Sterilising is done by using steam or pressurised, heated water.
20 A.0500.251 – IM-TL/15.00 EN (11/2011)
2.5 ShutdownWhen shutting the pump down the valves on the suction and discharge side must be closed. Following precautions must be taken:
• The power is shut off and the starting device locked so that the pump cannot be started.
• The pneumatic relief valve is purged.
• The connections for the flushed mechanical seals are shut off and depressurised.
• The pump and pipelines must be empty and de-pressurised.
See chapter “4.0 Disassembly and assembly instructions’’ before undertaking any work on the pump.
2.6 Routine maintenance• Check the oil level regularly.
• Change the oil once a year or every 3000 operating hours, whichever comes first.
• For lubricant capacities and grades, see “Section 3.2’’.
• Measure vibration and temperature, these factors can indicate bearing failure.
• Control the quality of the oil. Change the oil if contaminated with water, etc.
• Regularly check for leakages
2.7 Typical CIP (Cleaning In Place) cycleCIP relies on the circulation of fluid through the system at velocity and temperature. Velocity is required to generate turbulence in order to dislodge debris whilst temperature is required for the fluids to clean effectively.
Velocity is normally about 2 metres/second (6 feet/second). The need of velocity can depend on the pumped liquid, the process and the system to be cleaned. A centrifugal pump is often used to circulate the cleaning fluids as the required velocity is often beyond the scope of a PD pump. It is advised to have minimum 2 bar pressure over the PD pump during the CIP cycle.
The typical CIP cycle:Step 1 Pre-rinse. Cold water – 5 minutes – removes product debris.
Step 2 Detergent wash. Normally sodium hydroxide (Caustic) alkaline based – 30 to 45 minutes at 75ºC to 95ºC – removes carbohydrates, proteins, fats.
Step 3 Rinse. Cold water – 5 minutes – removes detergent residues.
Step 4 Acid wash. Nitric or phosphoric acid – 15 to 30 minutes at 60ºC – removes mineral salt residues and neutralizes.
Step 5 Final rinse. Cold water – 5 minutes – removes acid residues.
Cycle times, temperatures, fluids and concentrations of fluids used will vary depending on the product, process and system. Further, additional washes may be introduced.
2.8 Typical COP (Cleaning Out of Place) cycleA typical COP cycle:a. Clean the exterior of the pump with a soft brush and warm water (60ºC) with a detergent.
b. Remove front cover, retainers and rotors, stationary and rotating seals including O-rings.
c. Clean all removed parts with a soft brush and cold water until the parts are visual clean.
d. Clean the internals of the rotor case with a soft brush and cold water until the internals are visual clean
e. If needed make an additional cleaning cycle using warm water and a soft detergent at 60ºC.
f. Flush all parts thereafter during a few minutes with clean water
g. If additional cleaning method is needed please contact your supplier for further details.
21A.0500.251 – IM-TL/15.00 EN (11/2011)
2.9 Trouble shooting chart
Sym
ptom
Cau
ses
Act
ions
No
flow
Irreg
ular
flo
wLo
w
capa
city
Pum
p ov
er-
heat
s
Mot
orov
er-
heat
s
Exe
ssiv
e ro
tor
wea
r
Exe
ssiv
ese
alw
ear
Noi
se/,
Vibr
a-tio
ns
Sei
zure
Pum
pst
alls
on
star
t up
•In
corr
ect d
irect
ion
of ro
tatio
nR
ever
se m
otor
•P
ump
not p
rimed
Exp
el g
as fr
om s
uctio
n lin
e/pu
mp
cham
ber a
nd
prim
e
••
••
Insu
ffici
ent N
PH
S a
vaila
ble
Incr
ease
suc
tion
line
dia
and
stat
ic s
uctio
n he
ad
Sim
plify
suc
tion
line
and
redu
ce le
ngth
Red
uce
pum
p sp
eed
and
prod
uct t
empe
ratu
re•
••
Pro
duct
vap
ouris
ing
in s
uctio
n lin
e
••
•A
ir en
terin
g su
ctio
n lin
eR
emak
e pi
pew
ork
join
ts
••
••
Gas
in s
uctio
n lin
eE
xpel
gas
from
suc
tion
line/
pum
p ch
ambe
r
••
•In
suffi
cien
t sta
tic s
uctio
n he
adR
aise
pro
duct
leve
l to
incr
ease
sta
tic s
uctio
n he
ad
••
••
Pro
duct
vis
cosi
ty to
o hi
ghD
ecre
ase
pum
p sp
eed/
incr
ease
pro
duct
te
mpe
ratu
re
•P
rodu
ct v
isco
sity
too
low
Incr
ease
pum
p sp
eed/
decr
ease
pro
duct
te
mpe
ratu
re
••
••
•P
rodu
ct te
mpe
ratu
re to
o hi
ghC
ool p
rodu
ct/p
umpi
ng c
ham
ber
••
Pro
duct
tem
pera
ture
too
low
Hea
t pro
duct
/pum
ping
cha
mbe
r
••
••
Une
xpec
ted
solid
s in
pro
duct
Cle
an th
e sy
stem
/fit s
trai
ner o
n su
ctio
n si
de o
f pu
mp
••
••
••
•D
isch
arge
pre
ssur
e to
o hi
ghC
heck
for b
lock
ages
/sim
plify
dis
char
ge li
ne
••
••
•R
otor
case
str
aine
d by
pip
ewor
kC
heck
pip
e al
ignm
ent/
supp
ort p
ipew
ork
••
Pum
p sp
eed
too
high
Dec
reas
e pu
mp
spee
d
•P
ump
spee
d to
o lo
wIn
crea
se p
ump
spee
d
••
••
••
Sea
l flus
h in
adeq
uate
Incr
ease
sea
l flus
h to
requ
ired
pres
sure
/flow
••
••
••
•B
earin
g/tim
ing
gear
wea
rR
epla
ce w
orn
com
pone
nts
22
C
E
E
DD
A B
A.0500.251 – IM-TL/15.00 EN (11/2011)
3.0 Technical data
3.1 Rotor clearances
A = Axial clearance lobe / front cover B = Axial clearance lobe / back side rotorcase C = Radial clearance lobe / rotorcase top and bottom D = Clearance lobe / lobe E = Radial clearance lobe / rotorcase at inlet and outlet
Dimensions in mm
3.1.1 Rotors in duplex steel
Pump type A70°C
B70°C
C70°C
D70°C
E70°C
TL1/0039 0.100 0.100 0.120 0.21 0.24
±0.025 ±0.065 ±0.050 ±0.04 ±0.03
TL1/0100 0.125 0.125 0.16 0.21 0.32
±0.025 ±0.065 ±0.04 ±0.04 ±0.03
TL1/0139 0.125 0.125 0.16 0.21 0.32
±0.025 ±0.065 ±0.04 ±0.04 ±0.03
TL2/0074 0.125 0.125 0.17 0.22 0.36
±0.025 ±0.065 ±0.06 ±0.05 ±0.04
TL2/0234 0.150 0.150 0.16 0.16 0.36
±0.025 ±0.065 ±0.05 ±0.05 ±0.04
TL2/0301 0.175 0.175 0.21 0.16 0.41
±0.025 ±0.065 ±0.05 ±0.05 ±0.04
TL3/0234 0.175 0.175 0.26 0.27 0.52
±0.025 ±0.065 ±0.06 ±0.06 ±0.04
TL3/0677 0.200 0.200 0.21 0.22 0.42
±0.025 ±0.065 ±0.05 ±0.06 ±0.04
TL3/0953 0.225 0.225 0.31 0.22 0.61
±0.025 ±0.065 ±0.05 ±0.06 ±0.04
TL4/0535 0.200 0.200 0.27 0.32 0.54
±0.025 ±0.065 ±0.06 ±0.06 ±0.04
TL4/2316 0.300 0.300 0.39 0.31 0.84
±0.025 ±0.065 ±0.05 ±0.06 ±0.04
TL4/3497 0.300 0.300 0.59 0.31 1.04
±0.025 ±0.065 ±0.05 ±0.06 ±0.04
23A.0500.251 – IM-TL/15.00 EN (11/2011)
The oil level glass must ALWAYS be installed in the UPPER of the two threaded holes provided in the gearbox.
Pump operating temperature
Standard execution-20°C to +130°C / (-4°F to +266°F)
Special execution+130°C to 200°C / (+266°F to 392°F)
BP Energol GR - XP150 BP GRS15
Castrol Alpha SP150 Castrol Alpha SN150
Mobil Gear 629 Mobil Glycoyle 30
Shell Omala 150 Shell Tivela WA
Texaco Meropa 150 Texaco Synlube SAE90
Esso Spartan EP150 Esso IL1947
3.2 Lubricants
Pump Horizontal connection Vertical connection
TL1 0.23 lit 0.17 lit
TL2 0.37 lit 0.32 lit
TL3 1.20 lit 0.96 lit
TL4 2.24 lit 1.71 lit
Oil volume
After filling up oil, check the oil level in the oil level glass.
Air breather
Oil level glass
Vertical
Location of the oil level glass and the air breather
The pump will not be supplied pre-filled with oil therefore this table must be used to select recommended oil.
Oil changing: Oil level must be checked with the pump static.First change: After 150 hours of operation, thereafter every 3000 hours of operation.Oil filling: Fill with oil through the filler plug to the level indicated in the oil level glass.
Recommended oils
Horizontal
When the pump is mounted in the horizontal position (e.g. the pipe joints are in the horizontal plane) the oil level glass must ALWAYS be installed in the UPPER of the two threaded holes provided in the gearbox. This will guarantee, on inspection, that the oil level will reach the gearbox bearings. The lower hole is to be plugged with the standard plug, position 0915. The oil level glass is always installed as described above on delivery from SPX.
If the customer, after delivery, decides to turn the pump “upside down” in order to have the drive shaft in a different position, then the above instructions must be followed.
24
0250 0121 0190 0172 0120 0050
0030 0020
0010
0552
0170 0060
0051
00700551
A.0500.251 – IM-TL/15.00 EN (11/2011)
Pos. DescriptionEurope
USAPump type
DIN W.-No. TL1 TL2 TL3 TL4
0010 Rotor case EN 10213-4 1.4409 A351 CF3M x x x x
0020 Rotor EN 10088-3 1.4460 AISI 329(L) x x x x
0030 Pump cover EN 10088-3 1.4404 AISI 316L x x x x
00500051
Drive shaftLay shaft
EN 10088-3 1.4460 AISI 329(L) x x x x
0060 Gearbox EN 1561 0.6020 A278 - 30 x x x x
0070 Foot EN 1561 0.6020 A278 - 30 x x x x
0120 Gearbox cover EN 1561 0.6020 A278 - 30 x x x x
0121 Bearing coverEN 10025-2 1.0038 A570 - 36 x x – –
EN 10083-1 1.1191 SAE 1045 – – x x
0170 Spacer sleeve EN 10025-2 1.0570 SAE 5120 x x – –
0172 Pressure flange EN 10083-1 1.1191 SAE 1045 x x – –
0190 Gear, 1 pair EN 10025-2 1.5732 SAE 3415 x x x x
0250 Retainer EN 10088-3 1.4460 AISI 329(L) x x x x
0551 Stud bolt EN ISO 3506 ISO 3269 x x x x
0552 Stud bolt EN 20898-2 ISO 898-1 x x x x
3.3 Material specification3.3.1 Machined parts – Pump
Reference catalogue: Stahlschlüssel 2001 (steel page 250-256 / stainless steel age 492-494
25
vhda
ccze
cdde
df
eacb
zctb
vf
db
eb
ed
ec
ea
dc
2 x
G1/
8"
vbvc
spve
4 x
vd
A.0500.251 – IM-TL/15.00 EN (11/2011)
Reg
ardi
ng d
imen
sion
s an
d w
eigh
ts o
f sep
arat
e va
lves
, see
Cha
pter
14.
0
Dim
ensi
ons
in m
m
Pu
mp
sh
ow
n w
ith
seal fl
ush
– B
roke
n l
ine s
haft
sh
ow
s p
osi
tio
n f
or
bo
tto
m d
rive
vers
ion
3.4 Dimensional drawings and weights3.4.1 Standard – Horizontal
Flanges, see 3.4.4
Pu
mp
typ
ecb
cccd
da
db
dc
de
df
ea
eb
ec
ed
sptb
vbvc
vdve
vfvh
zcze
TL1/
0039
177
7111
518
111
868
172
195
406
21.5
1945
.826
110
012
211
8311
105
216
93
TL1/
0100
177
7111
518
111
868
172
195
406
21.5
1942
.326
110
012
211
8311
105
212
93
TL1/
0139
177
7111
518
111
868
172
195
406
21.5
1948
.827
310
012
211
8311
105
219
93
TL2/
0074
210
7814
021
614
078
204
227
508
2724
55.8
313
110
132
1198
1112
026
110
9
TL2/
0234
210
7814
021
614
078
204
227
508
2724
49.9
313
110
132
1198
1112
025
510
9
TL2/
0301
210
7814
021
614
078
204
227
508
2724
55.9
325
110
132
1198
1112
026
110
9
TL3/
0234
280
118.
518
8.5
285
200
107
287
310
8010
4138
67.8
401
170
198
1313
016
158
339
153.
5
TL3/
0677
280
118.
518
8.5
285
200
107
287
310
8010
4138
61.8
401
170
198
1313
016
158
333
153.
5
TL3/
0953
280
118.
518
8.5
285
200
107
287
310
8010
4138
73.4
423
170
198
1313
016
158
344
153.
5
TL4/
0535
467
139.
523
5.8
423
250
125
354.
537
7.5
110
1659
5512
1.2
608
230
270
1721
420
254
524
187.
5
TL4/
2316
418
139.
523
5.5
423
250
125
354.
537
7.5
110
1659
5596
.460
823
027
017
214
2025
449
918
7.5
TL4/
3497
418
139.
523
5.5
423
250
125
354.
537
7.5
110
1659
5512
2.4
660
230
270
1721
420
254
525
187.
5
26
eb
ec
ed
vf
dfdb
ea
zctb
ddvbvc
spve 4
x vd
vg
vhda
cb
ce ce
2 x G
1/8"
A.0500.251 – IM-TL/15.00 EN (11/2011)
3.4.2 Vertical mounting – thread connection Flanges, see 3.4.4.
Dim
ensi
ons
in m
m
Reg
ardi
ng d
imen
sion
s an
d w
eigh
ts o
f sep
arat
e va
lves
, see
Cha
pter
14.
0
Pu
mp
typ
ecb
ced
ad
bd
dd
fea
eb
ec
ed
sptb
vbvc
vdve
vfvg
vhzc
TL1/
0039
177
4218
111
825
195
406
21.5
1945
.826
110
012
211
8311
6110
521
6
TL1/
0100
177
4218
111
825
195
406
21.5
1942
.226
110
012
211
8311
6110
521
2
TL1/
0139
177
4218
111
825
195
406
21.5
1948
.827
310
012
211
8311
6110
521
9
TL2/
0074
210
48.5
216
140
3122
750
827
2455
.831
311
013
211
9811
6612
026
1
TL2/
0234
210
48.5
216
140
3122
750
827
2449
.931
311
013
211
9811
6612
025
5
TL2/
0301
210
48.5
216
140
3122
750
827
2455
.932
511
013
211
9811
6612
026
1
TL3/
0234
280
7028
520
046
.531
080
1041
3867
.840
117
019
813
130
1699
158
339
TL3/
0677
280
7028
520
046
.531
080
1041
3861
.840
117
019
813
130
1699
158
333
TL3/
0953
280
7028
520
046
.531
080
1041
3873
.442
317
019
813
130
1699
158
344
TL4/
0535
467
8842
325
062
.537
7.5
110
1659
5512
1.2
608
230
270
1721
420
135
254
524
TL4/
2316
418
8842
325
062
.537
7.5
110
1659
5596
.460
823
027
017
214
2013
525
449
9
TL4/
3497
418
8842
325
062
.537
7.5
110
1659
5512
2.4
660
230
270
1721
420
135
254
525
27
ddvbvc
vhvesp
vg
zctb
vfdb
df
ea
eb
ec
ed
da
4 x
vd
ce ce
cb
2 x
G1/
8"
A.0500.251 – IM-TL/15.00 EN (11/2011)
3.4.3 Vertical mounting – flange conncection Flanges, see 3.4.4.
Dim
ensi
ons
in m
m
Reg
ardi
ng d
imen
sion
s an
d w
eigh
ts o
f sep
arat
e va
lves
, see
Cha
pter
14.
0
Pu
mp
typ
ecb
ced
ad
bd
dd
fea
eb
ec
ed
sptb
vbvc
vdve
vfvg
vhzc
TL1/
0039
177
4215
311
825
195
406
21.5
1973
.826
110
012
211
8311
6110
521
6
TL1/
0100
177
4215
311
825
195
406
21.5
1970
.226
110
012
211
8311
6110
521
2
TL1/
0139
177
4215
311
825
195
406
21.5
1976
.827
310
012
211
8311
6110
521
9
TL2/
0074
210
48.5
183
140
3122
750
827
2488
.831
311
013
211
9811
6612
026
1
TL2/
0234
210
48.5
183
140
3122
750
827
2482
.931
311
013
211
9811
6612
025
5
TL2/
0301
210
48.5
183
140
3122
750
827
2488
.932
511
013
211
9811
6612
026
1
TL3/
0234
280
7024
620
046
.531
080
1041
3810
6.8
401
170
198
1313
016
9915
833
9
TL3/
0677
280
7024
620
046
.531
080
1041
3810
0.8
401
170
198
1313
016
9915
833
3
TL3/
0953
280
7024
620
046
.531
080
1041
3811
2.4
423
170
198
1313
016
9915
834
4
TL4/
0535
467
8835
725
062
.537
7.5
110
1659
5518
7.2
608
230
270
1721
420
135
254
524
TL4/
2316
418
8835
725
062
.537
7.5
110
1659
5516
2.4
608
230
270
1721
420
135
254
499
TL4/
3497
418
8835
725
062
.537
7.5
110
1659
5518
8.4
660
230
270
1721
420
135
254
525
28
zb
zbzb
zb
zb
A.0500.251 – IM-TL/15.00 EN (11/2011)
3.4.4 Flanges
Dimensions in mm
1 = All thread connections (DIN, SMS, DS, BS, ISO, GAS Thread, NPT Thread) and all clamp connections (ISO, SMS, DIN)
2 = All flanges DIN (PN16, PN25) and ANSI (class 150/class 300)
Pump type 1zb
2zb
TL1/0039 89 121
TL1/0100 89 121
TL1/0139 89 121
TL2/0074 98 130
TL2/0234 98 130
TL2/0301 98 130
TL3/0234 124 156
TL3/0677 124 156
TL3/0953 134 166
TL4/0535 159 191
TL4/2316 159 189
TL4/3497 159 189
3.4.4.1 Standard pump
Dimensions in mm
3.4.4.2 Enlarged inlet
Pump type Enlarged inlet1
zb2
zb
TL1/0039 20/40 115 147
TL1/0100 25/40 115 147
TL1/0139 40/50 115 147
TL2/0074 25/40 124 156
TL2/0234 40/50 124 156
TL2/0301 – 98 –
TL3/0234 40/50 151 183
TL3/0677 50/80 161 193
TL3/0953 80/100 161 191
TL4/0535 50/80 185 217
TL4/2316 – – –
TL4/3497 – – –
29
Thread connections
DIN 11851/DIN 405
ISO 2853 BS 4825
SMS 1145 GAS THREAD DS 722
NPT THREAD
ISO 2852 SMS 3017 DIN 32676
Clamp connections
d2 d1 d2 d1 d2 d1
d2 d1 d2 d1 d2 d1
3b
bb4.8
bb
d2 d1 d2 d1 d2 d1
d2 d1
b
b
A.0500.251 – IM-TL/15.00 EN (11/2011)
3.4.5 Thread and clamp connections Dimension table, see next page.
30 A.0500.251 – IM-TL/15.00 EN (11/2011)
Dimensions – Thread and clamp connections
Dim
ensi
ons
in m
m
TL1/
0039
TL1/
0100
TL1/
0139
TL2/
0074
TL2/
0234
TL2/
0301
TL3/
0234
TL3/
0677
TL3/
0953
TL4/
0535
TL4/
2316
TL4/
3497
Thre
ad
co
nn
ect
ion
s
DIN
118
51/
DIN
405
d2R
d 52
x1/6
Rd
65x1
/6R
d 52
x1/6
Rd
65x1
/6R
d 78
x1/6
Rd
65x1
/6R
d 78
x1/6
Rd
110x
1/6
Rd
78x1
/6R
d 13
0x1/
6R
d 19
0x1/
6
d126
3826
3850
3850
8150
100
150
b14
1414
1414
1414
2014
2024
ISO
285
3d2
±0.
0837
.05
52.6
37.0
552
.664
.08
52.6
64.0
891
.11
64.0
8–
–
d122
.637
.622
.637
.648
.537
.648
.572
.948
.5–
–
b13
.513
.513
.513
.513
.513
.513
.513
.513
.5–
–
BS
482
5d2
±0.
1545
.56
58.2
645
.56
58.2
672
.56
58.2
672
.56
97.9
772
.56
123.
37–
d122
.234
.922
.234
.947
.634
.947
.673
47.6
97.6
–
b14
.314
.314
.314
.314
.314
.314
.314
.314
,314
,3–
SM
S 1
145
d2R
d 40
x1/6
Rd
60x1
/6R
d 40
x1/6
Rd
60x1
/6R
d 70
x1/6
Rd
60x1
/6R
d 70
x1/6
Rd
98x1
/6R
d 70
x1/6
Rd
132x
1/6
–
d122
.635
.522
.635
.548
.535
.548
.572
48.5
97.6
–
b11
1511
1515
1515
1915
25–
GA
S T
HR
EA
DIS
O 7
/1d2
R 1
"R
1.1
/2"
R 1
"R
1.1
/2"
R 2
"R
1.1
/2"
R 2
"R
3"
R 2
"R
4"
R 6
"
d122
.637
.622
.637
.648
.537
.648
.572
48.5
97.6
150
b14
1414
1414
1414
2014
2020
DS
722
d2R
d 44
x1/6
Rd
58x1
/6R
d 44
x1/6
Rd
58x1
/6R
d 72
x1/6
Rd
58x1
/6R
d 72
x1/6
Rd
100x
1/6
Rd
72x1
/6–
–
d122
.635
.522
.635
.548
.535
.548
.572
48.5
––
b13
.513
.513
.513
.515
.513
.515
.516
.515
.5–
–
NP
T TH
RE
AD
AS
A B
2.1
d21"
NP
T1.
1/2"
NP
T1"
NP
T1.
1/2"
NP
T2"
NP
T1.
1/2"
NP
T2"
NP
T3"
NP
T2"
NP
T4"
NP
T6"
NP
T
d122
.637
.622
.637
.648
.537
.648
.572
48.5
97.6
150
b14
1414
1414
1414
2014
2020
Cla
mp
co
nn
ect
ion
s
ISO
285
2d2
50.5
6450
.564
6464
6491
6411
9–
d122
.637
.622
.637
.648
.537
.648
.572
.948
.597
.6–
SM
S 3
017
d250
.550
.550
.550
.564
50.5
6491
6411
9–
d122
.635
.622
.635
.648
.535
.648
.572
.948
.597
.6–
DIN
326
76d2
50.5
50.5
50.5
50.5
6450
.564
106
6411
9–
d126
3826
3850
3850
8150
100
–
31
ad ac ab aa
nxØ
ak
aa
aa
am
A.0500.251 – IM-TL/15.00 EN (11/2011)
3.4.6 DIN and ANSI flanges
Dim
ensi
ons
in m
m
TL1/
0039
TL1/
0100
TL1/
0139
TL2/
0074
TL2/
0234
TL2/
0301
TL3/
0234
TL3/
0677
TL3/
0953
TL4/
0535
TL4/
2316
TL4/
3497
aa20
22.6
37.6
22.6
37.6
48.5
37.6
48.5
7248
.597
.615
0
abP
N16
–68
88–
8810
2–
102
138
–15
821
2
PN
2568
––
68–
–88
––
102
––
AN
SI C
lass
150
–50
.873
–73
92.1
–92
.112
7–
157.
221
5.9
AN
SI C
lass
300
50.8
––
50.8
––
73–
–92
.1–
–
acP
N16
–85
110
–11
012
5–
125
160
–18
024
0
PN
2585
––
85–
–11
0–
–12
5–
–
AN
SI C
lass
150
–79
.498
.4–
98.4
120.
7–
120.
715
2.4
–19
0.5
241.
3
AN
SI C
lass
300
88.9
––
88.9
––
114.
3–
–12
7–
–
adP
N16
–11
515
0–
150
165
–16
520
0–
220
285
PN
2511
5–
–11
5–
–15
0–
–16
5–
–
AN
SI C
lass
150
–10
812
7–
127
152.
4–
152.
419
0.5
–22
8.6
279.
4
AN
SI C
lass
300
124
––
124
––
155.
5–
–16
5–
–
nxØ
akP
N16
–4x
Ø14
4xØ
18–
4xØ
184x∆1
8–
4xØ
188x
Ø18
–8x
Ø18
8xØ
22
PN
254x
Ø14
––
4xØ
14–
–4x
Ø18
––
4xØ
18–
–
AN
SI C
lass
150
–4x
Ø15
.94x
Ø15
.9–
4xØ
15.9
4x∆1
9.1
–4x
Ø19
.14x
Ø19
.1–
8xØ
19.1
8xØ
22.2
AN
SI C
lass
300
4xØ
20–
–4x
Ø20
––
4xØ
22–
–8x
Ø20
––
amP
N16
–16
16–
1618
–18
20–
2022
PN
2518
––
18–
–18
––
20–
–
AN
SI C
lass
150
–14
.317
.5–
17.5
19.1
–19
.123
.8–
23.8
25.4
AN
SI C
lass
300
17.5
––
17.5
––
20.6
––
22.4
––
32 A.0500.251 – IM-TL/15.00 EN (11/2011)
3.5 Weights3.5.1 Weights standard pump
Pump typeStandard pump
weightVertical mounting
weight
TL1/0039 17 17
TL1/0100 17 17
TL1/0139 18 18
TL2/0074 27 27.5
TL2/0234 27 27.5
TL2/0301 28 28.5
TL3/0234 69 71.5
TL3/0677 70 72.5
TL3/0953 72 74.5
TL4/0535 188 197
TL4/2316 188 197
TL4/3497 188 197
All weights in daN, mass is kg
33
80
78
76
74
72
70
86
84
82
80
78
76
dB(A) dB(A)
dB(A) dB(A)
84
82
80
78
76
74
90
88
86
84
82
80
A.0500.251 – IM-TL/15.00 EN (11/2011)
3.6 Sound level
TL1 – Max. rpm TL2 – Max. rpm
TL3 – Max. rpm TL4 – Max. rpm
0 Max.Differential pressure - bar
0 Max.Differential pressure - bar
0 Max.Differential pressure - bar
0 Max.Differential pressure - bar
3.7 Solid particles
Pump type
Nominal internal diameter connection
[mm]
Max theoretical particle size [mm]
Recommended max particle size
[mm]
TL1/0039 20 9.8 3
TL1/0100 26 20.6 7
TL1/0139 38 20.6 7
TL2/0074 26 12.2 4
TL2/0234 38 25.6 9
TL2/0301 50 25.6 9
TL3/0234 38 18.4 6
TL3/0677 50 38.5 13
TL3/0953 81 38.5 13
TL4/0535 50 21.8 7
TL4/2316 100 45.6 15
TL4/3497 150 45.6 15
34 A.0500.251 – IM-TL/15.00 EN (11/2011)
4.0 Disassembly and assembly instruction
4.1 Tools to be usedType Size or range TL 1 TL 2 TL 3 TL 4
Combination spanner 8 mm x
Combination spanner 10 mm x x x x
Combination spanner 17 mm x
Combination spanner 19 mm x
Combination spanner 20 mm x x x x
Combination spanner 24 mm x x x x
Combination spanner 30 mm x
Hexagon key 3 mm x
Hexagon key 4 mm x x x x
Hexagon key 5 mm x x x
Hexagon key 6 mm x x x
Hexagon key 7 mm x x x x
Hexagon key - Socket driven 4 mm x
Hexagon key - Socket driven 5 mm x x x
Hexagon key - Socket driven 6 mm x x x
Hexagon key - Socket driven 8 mm x
Hexagon key - Socket driven 10 mm x x x x
Hexagon key - Socket driven 17 mm x
Hexagon key - Socket driven 19 mm x
Hexagon key - Socket driven 20 mm x x x x
Hexagon key - Socket driven 24 mm x x x x
Hexagon key - Socket driven 30 mm x
Torque wrench Adjustable up to min 40 NM x
Torque wrench Adjustable up to min 70 NM x
Torque wrench Adjustable up to min 170 NM x
Torque wrench Adjustable up to min 350 NM x
Depth micrometer 0 – 25 mm x x x x
Feeler gauge set – x x x x
Socket for rotor retainer Supplied with pump x x x x
Hooker spanner HN5 x
Hooker spanner HN6 x
Hooker spanner HN9 x
Hooker spanner HN15 x
Soft-faced mallet – x x x x
Steel hammer Small x x x x
Circlip pliers – x x x
Screw driver – x x x x
Ball bearing extractor – x x x x
A selection of special tools is available, see chapter 5.0
35A.0500.251 – IM-TL/15.00 EN (11/2011)
4.4 Shutdown Before starting the maintenance or inspection, follow the next steps to shut down the pump.
1. Stop the pump. To prevent the motor from starting while you are working on the pump follow the procedure below:
a) Turn off the pump at the electrical cabinet
b) Set the pump circuit breaker to off
c) Secure the circuit breaker from switching on with a lock. If not possible take the fuses with you to the working place. Sign the electrical cabinet “out of work”
d) Remove, if necessary, the protection around the mechanical coupling only when the pump has come to a complete standstill.
2. Let the pump cool down to the ambient temperature, if suitable for the liquid being pumped.
3. Isolate and depressurise flushed product auxiliary services.
4. Close both suction and discharge valves.
5. Drain and purge the pump head and pipe work.
6. Clean the pump externally before disassembly.
4.2 General instructionsAssembly and disassembly may be performed by qualified personnel only. Always wear the appropriate safety clothing. Make sure that the personnel is properly instructed and educated.
Insufficient or wrong assembly and disassembly can lead to the pump malfunction. SPX is not liable for accidents and damage caused by non-compliance with the guidelines.
Always work in a clean surrounding. Keep all highly sensitive parts such as seals, bearings, etc. in their original packaging as long as possible.
Use a stainless steel work surface.
For maintenance and repair use only appropriate tools that are in good condition.
Check that the parts to be used have not been damaged during transport.
Never work on the pump in operation. In case of a disassembled pump, avoid any contact with the rotors when turning the shaft manually.
Do not forget that the pump can be started even when the pump cover has been removed for e.g. cleaning. Never run the pump without pump cover.
After disassembly carefully clean the parts and check them for damage, especially the mounting surfaces, and replace all damaged parts.
All parts fitted together at the disassembly must stay together when reinstalled, especially the rotors, shafts, bearings and shims.
4.3 O-rings and lip sealsWhen working with lip seals or O-rings, take care not to damage them as they pass over any sharp edges of splines, threads, etc. Be sure that the O-rings are not twisted in the groove when installing.
All O-rings and sealing lips should be lightly lubricated with a suitable lubricant before fitting, e.g. soap water.
For O-rings made of PTFE, it is advised to heat them up in hot water before placement. A warmed up O-ring becomes more soft, thus easier to install.
36
0450 0250
0512 0540 0525/0530
0510
04550456
0520 05150520
TL3, TL4
A.0500.251 – IM-TL/15.00 EN (11/2011)
4.5 Tightening torque [Nm] for nuts and screwsTL1 TL2
Pos. Description Dimension Torque Dimension Torque
0250 Retainer M10 (X-3CrNiMoN27.5.2) 36 M10 (X-3CrNiMoN27.5.2) 36
0450 Cap nut M10-M-DIN917 (A4) 41 M12-M-DIN917 (A4) 71
0455 Cap nut M10-M-DIN917 (A4) 41 M12-M-DIN917 (A4) 71
0510 Screw M 5X 12-M-(8.8) 4.9 M 5X 12-M-(8.8) 4.9
0512 Screw M 6X 20-DIN7991-(A4) 8.5 M 6X 25-DIN7991-(A4) 8.5
0515 Screw M 6X 16-M-(A4) 8.5 M 6X 20-M-(A4) 8.5
0520 Screw M 5X 20-M-DIN912 (12.9) 8.5 M 6X 25-M- (12.9) 14
0525 Screw M 8X 16-M-(8.8) 20.6 M 8X 16-M-(8.8) 20.6
0525 Screw M 8X 30-M-(8.8) 20.6 M 8X 30-M-(8.8) 20.6
0540 Cap nut M 6-M-DIN917 (A4) 8.5 M 6-M-DIN917 (A4) 8.5
TL3 TL4
Pos. Description Dimension Torque Dimension Torque
0250 Retainer M16 (X-3CrNiMoN27.5.2) 147 M16 (X-3CrNiMoN27.5.2) 147
0450 Cap nut M16-M-DIN917 (A4) 172 M20-M-DIN917 (A4) 347
0455 Cap nut M16-M-DIN917 (A4) 172 M20-M-DIN917 (A4) 347
0510 Screw M 6X 16-M-(8.8) 8.5 M 8X 20-M-(8.8) 20.6
0512 Screw M 8X 30-M-(A4) 20.6 M 8X 30-M-(A4) 20.6
0515 Screw M 8X 25-M-(A4) 20.6 M 8X 30-M-(A4) 20.6
0520 Screw M 6X 18-M-DIN912 (12.9) 14 M 8X 22-M-DIN912 (12.9) 21
0525 Screw M 8X 16-M-(8.8) 20.6 M 12X 20-M-(8.8) 71
0525 Screw M 8X 30-M-(8.8) 20.6 M 12X 40-M-(8.8) 71
0530 Screw – – M 16X 25-M-(8.8) 172
0530 Screw – – M 16X 35-M-(8.8) 172
0540 Cap nut M 6-M-DIN917 (A4) 8.5 M 6-M-DIN917 (A4) 8.5
37
0450
0030
0801
0250
0020
0171
0540 0081 0804
0130 0090
0082
0080
0082
A.0500.251 – IM-TL/15.00 EN (11/2011)
4.6 DisassemblySee also section 4.2 General instructions, section 4.3 O-rings and lip seals, 4.4 Shut down and 4.5 Tightening torque for nuts and screws.
4.6.1 Pump cover and rotor removalDo not forget that liquid may still flow out of the rotor case when removing the pump cover.
1. Remove the cap nuts (0450).
2. Grooves are provided along the circumference to permit removing pump cover (0030) with aid of e.g. a screwdriver. Check the O-ring (0801).
3. Lock rotors (0020) against rotation by putting a block of soft material between them.
4. Unscrew retainer (0250) counter clockwise by using the retainer tool.
5. Remove the rotor (0020).
Note! If lip seals are installed, the shaft sleeves might come out together with the rotor. Take care not to drop the shaft sleeves.
6. Make sure that the shims (0171) remain in place.
7. Remove the second rotor in the same way.
4.6.2 Disassembly of sealsOnly if section 4.6.1 has been completed
It is possible to remove the rotor case including seal assembly without dismantling the seals first.
Retainer tool
38
SINGLE MECH. SEAL
00950080
00900182
0081
0082 0550
0130
0540
O-RING SEAL
00970550
018301820130
0090 00950082
0540
0096 0550 0084
0182
0095
0895
0540
LIP SEAL
0090
0130
A.0500.251 – IM-TL/15.00 EN (11/2011)
4.6.2.1 Single mechanical seal
1. Unscrew the cap nuts (0540) from the stud bolts (0550).
2. Remove the seal cover (0090) by pushing from the rear end on the stud bolts (0550).
3. Remove the stationary part (0080) and O-rings (0082) of both mechanical seals from seal cover.
Pumps without positioning plate (0095), go to point 5
Pumps with positioning plate (0095) –TL2/0074 + TL3/02344. Remove positioning plate (0095) and O-ring (0182)
from the rotor case
5. Remove the shaft sleeves (0130) together with the rotating part of the mechanical seal.
6. Remove the rotating part of the seal (0081) from each shaft sleeve
4.6.2.2 Lip Seal
1. Unscrew the cap nuts (0540) from the stud bolts (0550).
2. Remove the seal cover (0090) by pushing from the rear end on the stud bolts.
3. Remove the shaft sleeves (0130).
4. Remove lip seal (0895), support ring for lip seal (0096) and O-ring (0084) (and O-ring 0082 on TL4) from the seal cover. For TL3 positions (0096) and (0084) not applicable.
Pumps with positioning plate (0095) – TL2/0074 + TL3/02345. Remove positioning plate (0095) and O-ring (0182)
from the rotor case.
4.6.2.3 O-ring seal
1. Unscrew the cap nuts (0540) from the stud bolts (0550).
2. Remove the seal cover (0090) by pushing from the rear end on the stud bolts.
3. Remove the shaft sleeves (0130).
4. Remove support ring with O-ring seal (0097, 0183) and O-rings (0082) from the seal cover.
Pumps with positioning plate (0095) –TL2/0074 + TL3/0234
5. Remove positioning plate (0095) and O-ring (0182) from the rotor case.
39
0010
05520565
04550456
0101
0565
0561
0512
Double mechanical seal
00950130 0090 0182
0553
0087
0540
00860080
00850083
0082
0088
0101
0890
0180
A.0500.251 – IM-TL/15.00 EN (11/2011)
4.6.2.4 Double mechanical seal
1. Unscrew the cap nuts (0540) from the stud bolts (0553).
2. Remove the seal cover (0090) by pushing from the rear end on the stud bolts.
3. Remove the first stationary part (0080) and O-rings (0082) of both mechanical seals from seal cover.
Pumps without positioning plate (0095), got to point 5
Pumps with positioning plate (0095) – TL2/0074 + TL3/02344. Remove positioning plate (0095) and O-ring (0182)
from the rotor case.
5. Remove the shaft sleeves (0130) together with the complete rotating part of the mechanical seal.
6. Take care not to loose the springs of the rotating part. (TL2/0074, TL2/0234, TL2/0301, TL3/0234, TL3/0677, TL3/0953, TL4/0535, TL4/2316, TL4/3497)
7. Remove the second stationary part (0087) of the mechanical seal with O-rings (0086)from the flushing cover (0101).
8. Remove both seal faces of the rotating parts (0088) with O-rings (0083 and 0085)from the shaft sleeves.
9. Remove the drivers of the rotating part from the shaft sleeves.
4.6.3 Rotor case and Flushing cover disassembly
1. Unscrew the cap nuts (0455) on the back of the pump. Remove the washers (0456).
2. Remove rotor case (0010) by tapping with a plastic hammer on the stud bolts (0552).
Note! If a flushing cover (0101) is installed, it can be disassembled from the rotor case by removing the screws (0512) after disassembly of the rotor case. The flushing cover is positioned with pins (0561).
For flushing cover service, remove lip seals (0890) and O-ring (0180).
40
0515 0880 0120
0181
0701
0850
0855
0875
0870
0611
0701
0660
0520
0172
0651
0651
0190}0651
0652
A.0500.251 – IM-TL/15.00 EN (11/2011)
4.6.4 Gearbox disassemblyOnly if section 4.6.1 – 4.6.3 have been completed.
1. Remove key (0611).
2. Remove oil drain plug (0870) with sealing ring (0875) and open the air breather (0850) with sealing ring (0855), drain oil into an appropriate container.
3. Untighten the screws (0515).
4. Remove gearbox cover (0120). Grooves are provided along the circumference to permit removing cover with aid of e.g. a screwdriver. Pay attention to the bearings (0701), lip seal (0880) and O-ring (0181).
TL1, TL25. Untighten the screws (0520) crosswise in several steps to release the locking
elements (0651) from the gear.
TL3, TL45. Loosen the screws of the locking assembly (0652) crosswise in several steps to
release it from the gear. The locking assembly is self releasing.
TL1, TL2, TL36. Remove the circlips (0660) from the shaft.
Remove the inner ring of the bearing (0701) from the shaft by using an arm puller.
TL46. Remove the cylinder bearing from the shaft.
41
06200630
01700510
01210700
00500051
0885
A.0500.251 – IM-TL/15.00 EN (11/2011)
Common for TL1, TL2, TL 3 and TL4
7. Remove the gear (0190) together with the locking elements (0651) from the shaft. (For TL3, TL4 locking assembly (0652). If necessary, hit gear with plastic hammer to loosen the locking elements.
8. Do this for both shafts.
9. Remove the screws (0510) and bearing covers (0121).
10. Pull out the shaft while tapping with a plastic hammer smoothly on the rotor side of the shaft.
11. Remove the lip seals (0885) from the gearbox.
TL1, TL212. Unlock the locking washer (0630) by bending the tooth straight.
13. Unlock the locking nut (0620)
14. Remove the locking washer and spacer sleeve (0170) from the shaft. The bearing (0700) can now be removed from the shaft.
TL3
12. Unlock the locking washer (0630) by bending the tooth straight.
13. Unlock the locking nut (0620)
14. Remove the locking washer from the shaft. The bearing (0700) can now be removed from the shaft.
TL4
12. Loosen the set screws of the locking nut (0620)
13. Unlock the locking nut (0620). The bearing (0700) can now be removed from the shaft.
Notes! If the bearing (0700) need to be replaced, also the needle bearing (0701) should be replaced. In this case, remove the needle bearings from the gearbox cover by using Tool (ball bearing extractor).
42
0185
0070
0525/0530
0185
0070
0525/0530
0185
0070
0525/0530
0185
0070
0525/0530
A.0500.251 – IM-TL/15.00 EN (11/2011)
VerticalHorizontal
4.6.5 Foot disassembly1. Remove screws (0525 and/or 0530) and the foot (0070).
Pay attention to O-ring (0185).
4.7 AssemblySee also section 4.2 General instructions, section 4.3. O-rings and lip seals and 4.5 Tightening torque for nuts and screws.
4.7.1 Foot assembly 1. Put the O-ring (0185) in the
foot. Place the foot on the gearbox and tighten with screws (0525) and/or (0530).
2. Secure the screws with Loctite 243.
VerticalHorizontal
43
06200630
01700510
01210700
00500051
0885
0620C A D B E
0700
A.0500.251 – IM-TL/15.00 EN (11/2011)
4.7.2 Gearbox assemblyFor TL1, TL2 and TL3 with ball bearing
1. Position the lip seals (0885) inside the gearbox.
2. Heat the bearings (0700) up to 100°C. Fit the bearing to the lay shaft (0051) ensuring it is pushed properly against the shaft shoulder.
3. TL1 and TL2. Put the spacer sleeve (0170) over the lay shaft (0051).
4. Secure the bearing with locking washer (0630) and the nut (0620). Use Loctite 243 to glue the nut (0620) on the shaft. Secure the nut by bending one tooth of the locking washer.
5. Fit the second bearing on the drive shaft (0050) in the same way.
6. Insert both shafts with the bearings into the gearbox while tapping smoothly on the external bearing ring. (Pay attention to position of drive shaft.) Be sure not to damage the seals (0885).
Continue with point 7.
For TL4 with taper roller bearing
1. Position the lip seals (0885) inside the gearbox.
2. Heat the bearing inner rings with rollers (A and B) up to 100°C. Fit the inner rings to the lay shaft (0051) ensuring they are pushed properly against the shaft shoulder.
3. Secure the bearing inner rings with the nut (0620). Secure the nut by tightening the set screws with torque 18 Nm.
4. Fix the bearing inner rings on the drive shaft (0050) in the same way.
5. Remove the first two bearing outer rings (C) from the lay shaft and drive shaft in the gearbox together with the two bearing intermediate rings (D). Insert both shafts in the gearbox and put the last two outer rings (E) in place.
Note! Be sure that the outer and intermediante rings are always assembled with the original bearing.
6. Be sure not to damage the seals (0885).
Continue with point 7.
44
0701
0660
0520
01720651
0190
42
7
53
1
8
64 2
5
31
6
1113
35
12
14
7
2
9
415
1
6
8
10
TL1 TL2
07010660
0190
0652
A.0500.251 – IM-TL/15.00 EN (11/2011)
Common for TL1, TL2, TL3 and TL47. Place bearing covers (0121) and secure them with the screws (0510).
8. Secure the screws with Loctite 243.
TL1 and TL29. Place the gear (0190), with locking elements (0651) and pressure flange (0172) on
the lay shaft.
10. Check that the locking elements are clean, lubricate them with oil and fit them in place. Use a torque wrench to tighten the screws (0520) with the specified torque following the tightening sequence shown below.
11. Now tighten the screws (0520) of the locking element in the same way as described for the lay shaft.
12. Place the gear (0190), with locking elements (0651) and pressure flange (0172) on the drive shaft.
13. Position the shafts by turning the drive shaft manually as shown in fig "Rotor position" (next page). Put the shaft sleeves and rotors on the shaft. Fix the rotors with the retainer.
14. Check the clearances between the rotors after tightening the locking elements. See section 3.1 Rotor clearances.
15. Put the circlips (0660) on the shaft
16. Heat inner ring of the bearing (0701) up to 100°C and push them on both shafts against the circlips.
Continue with point 18.
TL3 and TL410. Place the gear (0190) with locking assembly
(0652) on the lay shaft.
11. Use a torque wrench to tighten the screws of the locking assembly with the specified torque following the tightening sequence shown below.
12. Place the gear (0190) with locking assembly (0652) on the drive shaft.
Drive shaft
Lay shaft
Tightening torquePump Description M
[Nm]
TL1 Hexagon screw DIN 912 M5x20 (12.9) 8.5
TL2 Hexagon screw DIN 912 M6x25 (12.9) 14
Drive shaft
Lay shaft
45
42
7
53
1
8
64 2
5
31
6
1113
35
12
14
7
2
9
415
1
6
8
10
==
TL3, TL4
TL1, TL2, TL3 TL4
0880
0880
A.0500.251 – IM-TL/15.00 EN (11/2011)
13. Position the shafts by turning the drive shaft manually as shown in fig "Rotor position". Put the shaft sleeves and rotors on the shaft. Fix the rotors with the retainer.
14. Now tighten the screws of the locking assembly in the same way as described for the lay shaft.
15. Check the clearances between the rotors, in all rotor positions, after tightening the locking elements. See section 3.1 for Rotor clearances.
Only TL316. Put the circlips (0660) on the shaft.
TL3 and TL417. Heat inner ring of the bearing (0701) up to 100°C and push them on both shafts.
(For TL3 against the circlips).
Continue with point 18.
18. Place the lip seal (0880) in the gearbox cover by using tool.
‘‘Rotor position’’
Tool
Tool
Tightening torquePump Description M
[Nm]
TL3 Hexagon screw DIN 912 M6x18 (12.9) 14
TL4 Hexagon screw DIN 912 M8x22 (12.9) 21
46
0890
0101
0701 0120
0560
0181
A.0500.251 – IM-TL/15.00 EN (11/2011)
19. Press the external ring of the bearing (0701) by using a tool into the gearbox cover (0120). Surface of the bearing should be aligned with the surface of the gearbox cover.
20. Put the gearbox cover by using tool into position by smoothly tapping with a plastic hammer on the cover. Be sure that the pins (0560) and the O-rings (0181) are in the correct position.
21. Check proper running of the gears (no "heavy points") by measuring axial run out of the gears (max 0.05 mm).
22. If the gears cannot be turned smoothly remove the gearbox cover and re-adjust the gears. If necessary measure the axial run out of the gears
23. Secure the gearbox cover with the screws (0515).
24. Place key (0611).
25. Fit the oil drain plug (0870) and oil level glass (0860) and fill the gearbox with oil. See section 3.2 Lubricants.
26. Fit the air breather (0850).
4.7.3 Flushing cover assembly1. Install the lip seals (0890) in the flushing cover (0101) by using tool.
2. Install the flushing cover (0101) and O-ring (0180) in the rotor case (0010) with the screws (0512). Be sure that the pins (0561) are in the correct position.
Tool
Tool
Tool
47
0010
05520565
04550456
0101
0565
0890
0561
0180
0512
X
A.0500.251 – IM-TL/15.00 EN (11/2011)
Extra for TL4 with flushing coverFit the V-seals (0925) on the shaft ensuring they are pushed properly against the back of flushing cover.
4.7.4 Rotor case assembly1. Screw the stud bolts (0552) in the rotor case in case they have been removed.
2. Put the rotor case in position by smoothly tapping with a plastic hammer on it. Be sure that the pins (0565) are in correct position.
3. Place the washers (0456) and tighten the cap nuts (0455) on the stud bolts (0552).
Note! Be sure to tighten the cap nuts (0455) with the correct torque (See section 4.5 Tightening torques for nuts and screws).
Extra for TL4 with flushing cover
Ensure that the V-seals are pushed properly against the back of flushing cover.
4.7.5 Seal assembly4.7.5.1 Single mechanical seal - general
1. Put O-ring (0083) in the rotating part (0081) of the seal. Position the rotating part on the shaft sleeve to the correct setting distance (see table).
TL4When assembling the rotating part of the seal on the shaft sleeve, position the set screws of the seal over the radial holes on the shaft sleeve.
When replacing the shaft sleeve drill radial holes 1 mm deep, Ø 5 mm through threaded holes in rotating part of the seal, finally locking with the set screw, using Loctite 648.
Pump typeBurgmann *)
x[mm]
Roplan **)x
[mm]Pump type
Burgman *)x
[mm]
TL1/0039 15.9 – TL3/0234 32
TL1/0100 9.9 – TL3/0677 20
TL1/0139 9.9 – TL3/0953 20
TL2/0074 25 29.4 TL4/0535 63.9
TL2/0234 13 17.4 TL4/2316 14.9
TL2/0301 13 17.4 TL4/3497 14.9
*) Seal marking: Burgmann**) Seal marking: Roplan
48
0096 0550 0084
0182
0095
0895
0540
LIP SEAL
0090
0890
0804
08020130
0936
SINGLE MECH. SEAL
00950080
00900182
0081
00830082 0550
08020130
0540
0804
0890
0936
A.0500.251 – IM-TL/15.00 EN (11/2011)
4.7.5.2 Single mechanical seal
1. See point 1 in section 4.7.5.1
2. Put the shaft sleeve (0130) with the O-ring (0804) on the shaft. Check the position of the lip seal (0890) in case of a flushing cover. Do this for each shaft.
3. Check that pins (0936) fit in the groove of the shaft sleeve.
For pumps without positioning plate (0095), go to point 5.
Pumps with positioning plate (0095)4. Place the positioning plate (0095) with O-ring
(0182) in the rotor case.
5. Place both stationary parts (0080) with O-rings (0082) in the seal cover (0090). Take care not to damage the O-rings.
6. Position the seal cover with O-ring (0802) in the rotor case and secure it with cap nuts (0540) on the stud bolts (0550).
4.7.5.3 Lip seal
1. Place lip seals (0895) by using Loctite 648 in support rings (0096). Next put both support rings with O-rings (0084) into seal cover (0090). For TL3 positions (0096) and (0084) not applicable.
For pumps without positioning plate (0095), go to point 3.
Pumps with positioning plate (0095)2. Place the positioning plate (0095) with O-ring
(0182) in the rotor case.
3. Position the seal cover with O-ring (0802) in the rotor case and secure it with cap nuts (0540) on the stud bolts (0550).
4. Put the shaft sleeves (0130) with the O-ring (0804) on the shaft. Check the position of the lip seal (0890) in the case of a flush cover.
5. Check that the pins (0936) fit in the groove shaft sleeve.
49
O-RING SEAL
00970550
018301820130
0090 00950082
0540
0936
0802
0804
0890
X
A.0500.251 – IM-TL/15.00 EN (11/2011)
4.7.5.4 O-ring seal
1. Place O-ring seals (0183) in support rings (0097). Next place both support rings with O-rings (0082) into the seal cover (0090).
For pumps without positioning plate (0095) go to point 3.
Pumps with positioning plate (0095)2. Place the positioning plate (0095) with O-ring (0182)
in the rotor case.
3. Position the seal cover with O-ring (0802) in the rotor case and secure it with cap nuts (0540) on the stud bolts (0550).
4. Put the shaft sleeves (0130) with the O-ring (0804) on the shaft. Check the position of the lip seal (0890) in the case of a flushing cover.
5. Check that the pins (0936) fit in the groove shaft sleeve.
4.7.5.5 Double mechanical seal
1. Position the drivers of the rotating parts on the shaft sleeve. Setting dimension – see figure below with table.
2. Push the seal faces (0088) with O-rings (0083 and 0085) from both sides over the shaft sleeve (0130) into the driver.
3. Place the stationary parts of the mechanical seal (0087) with O-ring (0086) into the flushing cover (0101). Check that the O-ring (0086) does not come out on the gearbox side.
4. Place both stationary parts (0080) with O-rings (0082) in seal cover (0090). Take care not to damage the O-rings.
5. Put the sleeves with the O-rings (0804) and rotating part of the seal on the shafts.
6. Check that pins (0936) fit in the groove of the shaft sleeve.
7. TL2/0074 and TL3/0234 Place the positioning plate (0095) with O-ring (0182) in the rotor case.
8. Position the seal cover with O-ring (0802) in the rotor case and secure it with cap nuts (0540) on the stud bolts (0550).
TL4When assembling the rotating part of the seal on the shaft sleeve, position the set screws of the seal over the radial holes on the shaft sleeve. When replacing the shaft sleeve drill radial holes 1 mm deep, Ø 5 mm through threaded holes in rotating part of the seal, finally locking with the set screw, using Loctite 648.
Pump type X [mm]
TL2/0074 30.2
TL3/0234 36.85
TL4/0535 71.9
TL4/2316 22.9
TL4/3497 22.9
Pump type X [mm]
TL2/0234 22.6
TL2/0301 22.6
TL3/0677 28
TL3/0953 28
Above types do not have any positioning plate (0095)
50
0450
0030
0801
0250
0020
0171
0800
0802 0087008500800130
0082 0182 0088 00860101
0083
00900804
00800802 0101 0088
0082 00850083
Double seal
0095
0182 00870090
0130
0804
008600820090
0802 00800130
0083
0101 0088
0085 0087
0086
0540
0804
09360936
0540 0540
0936
TL4High ,low and medium pressure
TL2/TL3High pressure
TL2/TL3Low and medium pressureTL2/0074, TL3/0234
TL2/0234, TL2/0301, TL3/0677, TL3/0953 TL4/0535, TL4/2316, TL4/3497
A.0500.251 – IM-TL/15.00 EN (11/2011)
4.7.6 Rotor and pump cover assembly
1. Place the shims (0171) in chamber in the rotors.
2. Place the rotors (0020) on the shaft. The rotor for the drive shaft is marked with a ∆.
3. Block the rotors against each other by putting a block of soft material between the rotors.
4. Tighten the retainer (0250) clockwise with the correct torque (see section 4.5 Tightening torques for nuts and screws) by using the retainer tool.
Retainer tool
51A.0500.251 – IM-TL/15.00 EN (11/2011)
5. Measure the distance between the lobe surface and the mounting surface of the pump cover (0030). Next remove the lobe and peel off the necessary number of layers from the shim (0171) to adjust the distance to the setting dimension given in the table in section 3.1. (Thickness of one layer is 0.05 mm).
6. Reassemble the shim (0171) and rotors (0020), put the O-ring (0800) on the retainer and tighten the retainer (on TL4 use Loctite 243) clockwise with specified torque.
7. Assemble and adjust the second rotor in the same way.
8. Check the clearance between the rotors and the rotor case, see table in section 3.1 Rotor clearances.
9. Place the pump cover (0030) on the rotor case. Be sure that the O-ring (0801) stays in the groove and is not squeezed between pump cover and rotor case.
10. Secure the pump cover with the cap nuts (0450).
52
3.2
A
5 B C
0.5 x45° 2 x45°
Ø D
Ø E
Ø F
0.5 x45°15
20°
Ø G
H
A.0500.251 – IM-TL/15.00 EN (11/2011)
Dimensions in mm
5.0 Special tools
5.1 GeneralThere are a number of special tools available to facilitate assembly of the pumps. By using these tools the risk of damaging sealing element is reduced and the time needed for maintenance and/or repair will be shorter.
These tools can be ordered from SPX or produced in the own workshop.
The article numbers for ordering are indicated in the tables under each drawing/picture together with the dimensions of the tool (if applicable).
5.2 Assembly tool for lip sealsPlace: Gearbox Purpose: For fitting the lip seals into the gearbox (see section 4.7.2)
Pump type Art. No. A B C D E F G H
TL1 3.95604.11 160 9 0.5 ±0.1 46.8 +0.10
41.9 0-0.1
29.6 ±0.2 25 100
TL2 3.95605.11 180 9 0.5 ±0.1 54.8 +0.10
46.9 0-0.1
34.6 ±0.2 25 100
TL3 3.95606.11 200 10 1 ±0.1 84.8 +0.10
71.9 0-0.1
54.6 ±0.2 30 120
TL4 3.95607.11 250 10 1 ±0.1 119.8 +0.10
109.9 0-0.1
84.6 ±0.2 30 150
53
3.2
A20
°
I
0.5 x45°
2 x45°
B
C x45°
D
Ø E
Ø F
Ø G
5
Ø H
J
3.2
Ø F
Ø D
B
G
A
C
Ø E
0.5 x45°0.5x45° 2 x45°
A.0500.251 – IM-TL/15.00 EN (11/2011)
5.3 Assembly tool for lip sealPlace: Gearbox cover Purpose: For fitting the lip seal into the gearbox cover (see section 4.7.2)
5.4 Assembly tool for needle bearingsPlace: Gearbox cover Purpose: For fitting the external ring of the bearing into the gearbox cover (see section 4.7.2)
Pump type Art. No. A B C D E F G H I J
TL1 3.95608.11 150 1 ±0.1 0.5 10 19.6 ±0.1 34.5 ±0.1 40 25 15 100
TL2 3.95609.11 150 – 0.5 10 24.6 ±0.2 – 45 25 15 100
TL3 3.95610.11 170 1 ±0.1 0.5 12 39.6 ±0.2 54.5 ±0.1 65 30 15 100
TL4 3.95611.11 180 – – 12 59.5 ±0.2 – 84.9 0 -0.1
30 8 110
Dimensions in mm
Pump type Art. No. A B C D E F G
TL1 3.95600.11 150 120 20 37 23.9 0-0.1
25 70
TL2 3.95601.11 190 150 30 43 28.9 0-0.1
25 100
TL3 3.95602.11 200 160 30 60 44.9 0-0.1
30 100
TL4 3.95603.11 200 160 28 109.8 71.9 0-0.1
30 100
Dimensions in mm
54
Ø AØ B
3Ø
D
E
C
Ø F
10°
3.2
3.2
A
2 x45°
0.5 x45°
2
B C
20°
Ø E
Ø D
Ø F
110
A.0500.251 – IM-TL/15.00 EN (11/2011)
5.5 Assembly tool for coverPlace: Gearbox Purpose: For fitting the gearbox cover on the gearbox (see section 4.7.2)
5.6 Assembly tool for lip sealsPlace: Flushing cover Purpose: For fitting the lip seal into the flushing cover (see section 4.7.3)
Pump type Art. No. A B C D E F
TL1 3.95632.11 19.1 ±0.03 20 +0.1+0.2
0.45 x45° 45 90 15
TL2 3.95633.11 24.1 ±0.03 25 +0.1+0.2
0.45 x45° 55 90 20
TL3 3.95634.11 38.1 ±0.03 40 +0.1+0.2
0.95 x45° 85 120 30
TL4 3.95635.11 55.1 ±0.03 60 +0.1+0.2
2.45 x45° 115 155 50
Pump type Art. No. A B C D E F
TL1 3.95612.11 170 8 10 41.9 0-0.1
29.6 ±0.2 25
TL2 3.95613.11 170 8 10 46.9 0-0.1
34.6 ±0.2 25
TL3 3.95614.11 170 10 12 69.9 0-0.1
69.9 ±0.2 30
TL4 3.95615.11 175 10 12 89.9 0-0.1
89.9 ±0.2 30
Dimensions in mm
Dimensions in mm
55
0255 (TL3/0953 & (TL4/3497)
04500030
0801 0250
0800 0171
0020 08020090
0550
05510010
0804
0130
05400552
0051
0050
07000611
05150455
0456
08800120
0181
0701(ext.)
056008500920
085508650860
0565
0885
0870
08750185
0525/0530
0915
0121 0510
0170 0630
0620 01900651 0651
0172 0520
0660 0701(int.)
0905
0900
0100}
0910
0060
0070
0525
0936
0936
TL3, TL4
0652
} →
A.0500.251 – IM-TL/15.00 EN (11/2011)
6.0 Sectional drawings and part lists6.1 Overview
56 A.0500.251 – IM-TL/15.00 EN (11/2011)
6.2 Recommended spare parts
Pos.Nos./pump
DescriptionFor preventie service for the next coming 3 years
Completeoverhaul
0010 1 Rotor case
0020 2 Rotor x
00301 Pump cover
1 Pump cover for heating
00321 Pump cover valve
1 Pump cover valve for heating
0050 1 Drive Shaft
0051 1 Lay Shaft
0060 1 Gearbox
00701 Foot - horizontal
1 Foot - vertical
0090 1 Seal cover
0095 1 Positioning plate
0096 2 Support ring for lip seal
0097 2 Support ring
0101 1 Flush cover
0120 1 Gearbox cover
0121 2 Bearing cover
0130 2 Shaft sleeve x
0170 2 Spacer sleeve (TL1, TL2 only)
0171 2 Shim x x
0172 2 Pressure flange (TL1, TL2 only)
0175 1 Support ring spring
0190 1 Gear, set x
0200 1 Valve head
0210 1 Baseplate
0220 1 Cylinder
0230 1 Piston
0240
1 Cover spring loaded
1 Cover spring loaded - air lifted
1 Cover air loaded - air lifted
0250 2 Retainer x
0251 1 Spring adjusting screw
0255 2 Spring washer
0260 1 Spacer sleeve
0450 4 Cap nut x
0455 4 Cap nut
0456 4 Washer
0510 8 Screw
0512 4 Screw
0515 2 Screw
052016 Screw (TL1)
12 Screw (TL2)
0522 1 Screw
0523 4 Screw
05253 Screw (TL1, TL2, TL3)
2 Screw (TL4)
0530 1 Screw
0540
2 Cap nut (TL1)
4 Cap nut (TL2, TL3)
6 Cap nut (TL4)
0543 1 Spring adjusting plate
0550
2 Stud bolt (TL1)
4 Stud bolt (TL2, TL3)
6 Stud bolt (TL4)
0551 4 Stud bolt
0552 4 Stud bolt
0553
2 Stud bolt (TL1)
4 Stud bolt (TL2, TL3)
6 Stud bolt (TL4)
57A.0500.251 – IM-TL/15.00 EN (11/2011)
6.2.1 Recommended spare parts
Pos.Nos./ pump
DescriptionFor preventive service for the next coming 3 years
Completeoverhaul
0560 2 Pin
0561 2 Pin
0562 1 Pin
0565 2 Pin
0611 1 Key x x
0620 2 Locking nut
0630 2 Locking washer (TL1, TL2, TL3 only) x
0651 2 Locking elements x
0652 2 Locking assembly x
0660 2 Circlip (TL1, TL2, TL3 only) x
0700 2 Bearing x
0701 2 Needle Bearing (TL1, TL2, TL3 only) x
0701 2 Cylinder Bearing (TL4 only) x
0750 1 Spring
0850 1 Air breather x
0860 1 Oil level glass
0870 1 Drain plug
0900 1 Name plate
0905 6 Rivet
09103 Plastic plug (TL1, TL2, TL3)
4 Plastic plug (TL4)
0915 1 Plug
0920 1 Plastic plug (TL4)
0921 1 Plastic plug
0922 1 Plastic plug
0923 1 Plug
0930 1 Protection plate
0931 1 Screw
0933 2 Plug
0934 2 Plastic plug
0936 2 Pin (TL2, TL3, TL4 only)
1 Retainer tool
1 Key protector
1 O-ring kit for the hydraulic part x x
1 Service kit for gearbox x x
2 Shaft seals complete x x
1 O-ring kit for shaft seal x x
If applicable:
1 Kit for flush covers x x
1 Service kit for quench and flush x x
58
04500030
0801 0250
0800 0171
0020 08020090
0550
05510010
0804
0130
05400552
0100
}0255 (TL3/0953 & (TL4/3497)
A.0500.251 – IM-TL/15.00 EN (11/2011)
6.3 Hydraulic part 6.3.1 Hydraulic part complete
Retainer tool
Pos.Nos./pump
Description TL1/0039 TL1/0100 TL1/0139 TL2/0074 TL2/0234 TL2/0301
0010 1 Rotor case see 6.3.3 Rotor case options0020 2 Rotor 3.94388.11 3.94389.31 3.94390.31 3.94404.11 3.94405.31 3.94406.310030 1 Pump cover see 6.3.4 Pump cover options0090 1 Seal cover see 7.0 -11.0 0100 2 Seal see 7.0 -11.00130 2 Shaft sleeve see 7.0 -11.00171 2 Shim 3.94520.11 3.94480.110250 2 Retainer 3.94391.31 3.94392.31 3.94407.31 3.94408.310450 4 Cap nut 0.0205.784 0.0205.7850540 Cap nut see 7.0 -11.00550 Stud bolt see 7.0 -11.00551 4 Stud bolt 0.0012.921 3.94549.110552 4 Stud bolt 0.0012.680 0.0012.6820800 2 O-ring see O-ring kit for hydraulic part with/without safety relief valve0801 1 O-ring see O-ring kit for hydraulic part with/without safety relief valve0802 1 O-ring see O-ring kit for hydraulic part with/without safety relief valve0804 2 O-ring see O-ring kit for hydraulic part with/without safety relief valve
1 Retainer tool 3.94550.31 3.94550.31
TL1, TL2
TL3, TL4
Pos.Nos./pump
Description TL3/0234 TL3/0677 TL3/0953 TL4/0535 TL4/2316 TL4/3497
0010 1 Rotor case see 6.3.3 Rotor case options0020 2 Rotor 3.94419.11 3.94420.31 3.94421.41 3.94451.11 3.94452.31 3.94453.410030 1 Pump cover see 6.3.4 Pump cover options0090 1 Seal cover see 7.0 -11.00100 2 Seal see 7.0 -11.00130 2 Shaft sleeve see 7.0 -11.00171 2 Shim 3.94521.31 3.94588.310250 2 Retainer 3.94422.31 3.94423.31 3.94454.31 3.94455.310255 2 Spring washer – 0.0354.022 – 0.0354.0210450 4 Cap nut 0.0205.787 0.0205.7890540 Cap nut see 7.0 -11.00550 Stud bolt see 7.0 -11.00551 4 Stud bolt 0.0012.950 0.0012.9780552 4 Stud bolt 3.94444.11 3.94560.110800 2 O-ring see O-ring kit for hydraulic part with/without safety relief valve0801 1 O-ring see O-ring kit for hydraulic part with/without safety relief valve0802 1 O-ring see O-ring kit for hydraulic part with/without safety relief valve0804 2 O-ring see O-ring kit for hydraulic part with/without safety relief valve 1 Retainer tool 3.94551.31 3.94555.31
59
0180 08900101 0881
05610512
05530540
05530561
01800890
0933
0934
0935
0512
05400881
A.0500.251 – IM-TL/15.00 EN (11/2011)
6.3.2 TopKits Options6.3.2.1 Kit for flush covers
Pressure of the flushing: 0.5 bar max.
Pos.Nos./pump
Description TL1/0039TL1/0100 TL1/0139
TL2/0074TL2/0234 TL2/0301
TL3/0234TL3/0677 TL3/0953
TL4/0535TL4/2316 TL4/3497
Kit for flush cover 3.01948.11 3.01948.12 3.01949.11 3.01949.12 3.01950.11 3.01950.12 3.01951.110101 1 Flush cover 3.94396.11 3.94413.11 3.94428.11 3.94460.120180 1 O-ring 0.2173.865 0.2173.940 0.2173.947 0.2173.8660512 4 Screw 0.0254.345 0.0254.346 0.0254.362 0.0254.362
05402 Cap nut 0.0205.782 – – –4 Cap nut – 0.0205.782 0.0205.782 –6 Cap nut – – – 0.0205.783
05532 Stud bolt 0.0012.905 0.0012.903 – – –4 Stud bolt – 0.0012.907 3.94487.11 0.0012.908 3.94488.11 –6 Stud bolt – – – 0.0012.604
0561 2 Pin 0.0490.084 0.0490.084 0.0490.084 0.0490.7540881 2 V-seal – – – 0.2230.4680890 2 Lip seal NBR/SS 0.2234.339 0.2234.497 0.2234.527 0.2234.3850933 2 Plug 0.0625.061 0.0625.061 0.0625.061 0.0625.0610934 2 Plastic plug 3.94615.11 3.94615.11 3.94615.11 3.94615.110935 2 Sealing ring 4A3483.113 4A3483.113 4A3483.113 4A3483.113
60
0180 08900881
0180
0890
0881
A.0500.251 – IM-TL/15.00 EN (11/2011)
6.3.2.2 Service kit for quench/flush
Pos.Nos./pump
Description TL1 TL2 TL3 TL4
Service kit for quench/flush 3.01948.21 3.01949.21 3.01950.21 3.01951.21
0180 1 O-ring 0.2173.865 0.2173.940 0.2173.947 0.2173.866
0881 2 V-seal – – – 0.2230.468
0890 2 Lip seal NBR/SS 0.2234.339 0.2234.497 0.2234.527 0.2234.385
61
0800
0802
0804
0801
A.0500.251 – IM-TL/15.00 EN (11/2011)
6.3.2.3 O-ring kit for hydraulic part
Note: Only FDA O-rings are approved for food applications
Pos.Nos./pump
Description TL1 TL2 TL3 TL4
O-ring kit FPM 3.01819.11 3.01822.11 3.01825.11 3.01828.11
0800 2 O-ring 0.2173.934 3.91864.11 0.2173.939 0.2173.950
0801 1 O-ring 0.2173.935 0.2173.937 0.2173.902 0.2173.965
0802 1 O-ring 0.2173.903 0.2173.948 0.2173.858 0.2173.966
0804 2 O-ring 0.2173.936 0.2173.938 0.2173.904 0.2173.914
O-ring kit EPDM 3.01819.12 3.01822.12 3.01825.12 3.01828.12
0800 2 O-ring 0.2173.038 0.2173.074 0.2173.083 0.2173.141
0801 1 O-ring 0.2173.104 0.2173.112 0.2173.126 0.2173.253
0802 1 O-ring 0.2173.210 0.2173.202 0.2173.217 0.2173.254
0804 2 O-ring 0.2173.022 0.2173.025 0.2173.240 0.2173.255
O-ring kit FPM-FDA 3.01819.18 3.01822.18 3.01825.18 3.01828.18
0800 2 O-ring 0.2174.880 0.2174.871 0.2174.895 0.2174.913
0801 1 O-ring 0.2174.881 0.2174.870 0.2174.910 0.2174.916
0802 1 O-ring 0.2174.882 0.2174.869 0.2174.911 0.2174.918
0804 2 O-ring 0.2174.883 0.2174.868 0.2174.912 0.2174.919
O-ring kit EPDM-FDA 3.01819.16 3.01822.16 3.01825.16 3.01828.16
0800 2 O-ring 0.2173.535 0.2173.501 0.2173.508 0.2173.517
0801 1 O-ring 0.2173.502 0.2173.542 0.2173.549 0.2173.557
0802 1 O-ring 0.2173.533 0.2173.531 0.2173.550 0.2173.558
0804 2 O-ring 0.2173.536 0.2173.543 0.2173.540 0.2173.513
O-ring kit PTFE 3.01819.13 3.01822.13 3.01825.13 3.01828.13
0800 2 O-ring 0.2173.808 0.2173.804 0.2173.800 0.2173.811
0801 1 O-ring 0.2173.809 0.2173.805 0.2173.952 0.2173.812
0802 1 O-ring 0.2173.953 0.2173.806 0.2173.836 0.2173.813
0804 2 O-ring 0.2173.810 0.2173.807 0.2173.954 0.2173.814
O-ring kit CHEMRAZ® 3.01819.14 3.01822.14 3.01825.14 3.01828.14
0800 2 O-ring 0.2173.717 0.2173.721 0.2173.725 0.2173.732
0801 1 O-ring 0.2173.718 0.2173.722 0.2173.726 0.2173.733
0802 1 O-ring 0.2173.719 0.2173.723 0.2173.727 0.2173.734
0804 2 O-ring 0.2173.720 0.2173.724 0.2173.728 0.2173.735
* O-ring kit KALREZ® 3.01819.15 3.01822.15 3.01825.15 3.01828.15
0800 2 O-ring 0.2173.600 0.2173.604 0.2173.608 0.2173.612
0801 1 O-ring 0.2173.601 0.2173.605 0.2173.609 0.2173.613
0802 1 O-ring 0.2173.602 0.2173.606 0.2173.610 0.2173.614
0804 2 O-ring 0.2173.603 0.2173.607 0.2173.611 0.2173.615
* Kalrez is a registered trademark of DuPont Performance Elastomers.
62
0800
0802
0804
0801
0807
A.0500.251 – IM-TL/15.00 EN (11/2011)
6.3.2.4 O-ring kit for hydraulic part with safety relief valve
Note: Only FDA O-rings are approved for food applications
Pos.Nos./pump
Description TL1/0039TL1/0100 TL1/0139
TL2/0074TL2/0234 TL2/0301
TL3/0234TL3/0677 TL3/0953
TL4/0535TL4/2316 TL4/3497
O-ring kit FPM 3.01819.21 3.01819.31 3.01822.21 3.01822.31 3.01825.21 3.01825.31 3.01828.21 3.01828.310800 2 O-ring 0.2173.934 0.2173.934 3.91864.11 3.91864.11 0.2173.939 0.2173.939 0.2173.950 0.2173.9500801 1 O-ring 0.2173.935 0.2173.935 0.2173.937 0.2173.937 0.2173.902 0.2173.902 0.2173.965 0.2173.9650802 1 O-ring 0.2173.903 0.2173.903 0.2173.948 0.2173.948 0.2173.858 0.2173.858 0.2173.966 0.2173.9660804 2 O-ring 0.2173.936 0.2173.936 0.2173.938 0.2173.938 0.2173.904 0.2173.904 0.2173.914 0.2173.9140807 1 O-ring 0.2173.974 0.2173.973 0.2173.906 0.2173.969 0.2173.977 0.2173.976 0.2173.976 0.2173.980O-ring kit EPDM 3.01819.22 3.01819.32 3.01822.22 3.01822.32 3.01825.22 3.01825.32 3.01828.22 3.01828.320800 2 O-ring 0.2173.038 0.2173.038 0.2173.074 0.2173.074 0.2173.083 0.2173.083 0.2173.141 0.2173.1410801 1 O-ring 0.2173.104 0.2173.104 0.2173.112 0.2173.112 0.2173.126 0.2173.126 0.2173.253 0.2173.2530802 1 O-ring 0.2173.210 0.2173.210 0.2173.202 0.2173.202 0.2173.217 0.2173.217 0.2173.254 0.2173.2540804 2 O-ring 0.2173.022 0.2173.022 0.2173.025 0.2173.025 0.2173.240 0.2173.240 0.2173.255 0.2173.2550807 1 O-ring 0.2173.087 0.2173.091 0.2173.143 0.2173.149 0.2173.154 0.2173.169 0.2173.169 0.2173.179
O-ring kit FPM-FDA 3.01819.28 3.01819.38 3.01822.28 3.01822.38 3.01825.28 3.01825.38 3.01828.28 3.01828.38
0800 2 O-ring 0.2174.880 0.2174.880 0.2174.871 0.2174.871 0.2174.895 0.2174.895 0.2174.913 0.2174.913
0801 1 O-ring 0.2174.881 0.2174.881 0.2174.870 0.2174.870 0.2174.910 0.2174.910 0.2174.916 0.2174.916
0802 1 O-ring 0.2174.882 0.2174.882 0.2174.869 0.2174.869 0.2174.911 0.2174.911 0.2174.918 0.2174.918
0804 2 O-ring 0.2174.883 0.2174.883 0.2174.868 0.2174.868 0.2174.912 0.2174.912 0.2174.919 0.2174.919
0807 1 O-ring 0.2174.920 0.2174.922 0.2174.923 0.2174.875 0.2174.926 0.2174.828 0.2174.828 0.2174.930
O-ring kit EPDM - FDA 3.01819.26 3.01819.36 3.01822.26 3.01822.36 3.01825.26 3.01825.36 3.01828.26 3.01828.360800 2 O-ring 0.2173.535 0.2173.535 0.2173.501 0.2173.501 0.2173.508 0.2173.508 0.2173.517 0.2173.5170801 1 O-ring 0.2173.502 0.2173.502 0.2173.542 0.2173.542 0.2173.549 0.2173.549 0.2173.557 0.2173.5570802 1 O-ring 0.2173.533 0.2173.533 0.2173.531 0.2173.531 0.2173.550 0.2173.550 0.2173.558 0.2173.5580804 2 O-ring 0.2173.536 0.2173.536 0.2173.543 0.2173.543 0.2173.540 0.2173.540 0.2173.513 0.2173.5130807 1 O-ring 0.2173.503 0.2173.537 0.2173.544 0.2173.510 0.2173.551 0.2173.519 0.2173.519 0.2173.528O-ring kit PTFE 3.01819.23 3.01819.33 3.01822.23 3.01822.33 3.01825.23 3.01825.33 3.01828.23 3.01828.330800 2 O-ring 0.2173.808 0.2173.808 0.2173.804 0.2173.804 0.2173.800 0.2173.800 0.2173.811 0.2173.8110801 1 O-ring 0.2173.809 0.2173.809 0.2173.805 0.2173.805 0.2173.952 0.2173.952 0.2173.812 0.2173.8120802 1 O-ring 0.2173.953 0.2173.953 0.2173.806 0.2173.806 0.2173.836 0.2173.836 0.2173.813 0.2173.8130804 2 O-ring 0.2173.810 0.2173.810 0.2173.807 0.2173.807 0.2173.954 0.2173.954 0.2173.814 0.2173.8140807 1 O-ring (*) 0.2173.736 0.2173.737 0.2173.738 0.2173.731 0.2173.739 0.2173.740 0.2173.740 0.2173.741O-ring kit CHEMRAZ® 3.01819.24 3.01819.34 3.01822.24 3.01822.34 3.01825.24 3.01825.34 3.01828.24 3.01828.340800 2 O-ring 0.2173.717 0.2173.717 0.2173.721 0.2173.721 0.2173.725 0.2173.725 0.2173.732 0.2173.7320801 1 O-ring 0.2173.718 0.2173.718 0.2173.722 0.2173.722 0.2173.726 0.2173.726 0.2173.733 0.2173.7330802 1 O-ring 0.2173.719 0.2173.719 0.2173.723 0.2173.723 0.2173.727 0.2173.727 0.2173.734 0.2173.7340804 2 O-ring 0.2173.720 0.2173.720 0.2173.724 0.2173.724 0.2173.728 0.2173.728 0.2173.735 0.2173.7350807 1 O-ring 0.2173.736 0.2173.737 0.2173.738 0.2173.731 0.2173.739 0.2173.740 0.2173.740 0.2173.741* O-ring kit KALREZ® 3.01819.25 3.01819.35 3.01822.25 3.01822.35 3.01825.25 3.01825.35 3.01828.25 3.01828.350800 2 O-ring 0.2173.600 0.2173.600 0.2173.604 0.2173.604 0.2173.608 0.2173.608 0.2173.612 0.2173.6120801 1 O-ring 0.2173.601 0.2173.601 0.2173.605 0.2173.605 0.2173.609 0.2173.609 0.2173.613 0.2173.6130802 1 O-ring 0.2173.602 0.2173.602 0.2173.606 0.2173.606 0.2173.610 0.2173.610 0.2173.614 0.2173.6140804 2 O-ring 0.2173.603 0.2173.603 0.2173.607 0.2173.607 0.2173.611 0.2173.611 0.2173.615 0.2173.6150807 1 O-ring 0.2173.627 0.2173.628 0.2173.629 0.2173.623 0.2173.630 0.2173.631 0.2173.631 0.2173.632
(*) Pos. 0807 in O-ring kit PTFE is of Chemraz®
* Kalrez is a registered trademark of DuPont Performance Elastomers.
63
0010
0030 0030
A.0500.251 – IM-TL/15.00 EN (11/2011)
6.3.3 Rotor case options
6.3.4 Pump cover 6.3.4.1 Flat pump cover
Pos.Nos./pump
Description TL1/0039 TL1/0100 TL1/0139 TL2/0074 TL2/0234 TL2/0301
00101 Rotor case 3.14030.11 3.14031.11 3.14032.11 3.14033.11 3.14034.11 3.14035.11
1 Rotor case enlarged inlet 3.14030.21 3.14031.21 3.14032.21 3.14033.21 3.14034.21 –
Pump cover Pump cover with heating jacket
TL1, TL2
Pos.Nos./pump
Description TL3/0234 TL3/0677 TL3/0953 TL4/0535 TL4/2316 TL4/3497
00101 Rotor case 3.14040.11 3.14041.11 3.14042.11 3.14048.11 3.14049.11 3.14050.11
1 Rotor case enlarged inlet 3.14040.21 3.14041.21 3.14042.21 3.14048.21 – –
TL3, TL4
Pos.Nos./pump
Description TL1 TL2 TL3 TL4
00301 Pump cover 3.94387.11 3.94403.11 3.94418.11 3.94449.11
1 Pump cover for heating 3.94387.12 3.94403.12 3.94418.12 3.94449.12
64
09100850
0920
0855
0701
05600865
0860
0565
0885
0870
08750185
0525/0530
0060
09000905
0915
0070
05250660
0701
05200172
06510651
0620 0190
0170 0630
05100121
07000611
00500051
0120
01810880
0455
0456
0515
extern
intern
0936
0936
TL3, TL4
0652
} →
A.0500.251 – IM-TL/15.00 EN (11/2011)
6.4 Gearbox 6.4.1 Gearbox, complete
65A.0500.251 – IM-TL/15.00 EN (11/2011)
6.4.1.1 Parts list – Gearbox
Pos. Nos./pump
Description TL1 TL2 TL3/0234TL3/0677
TL3/0953 TL4/0535TL4/2316
TL4/3497
0050 1 Drive shaft 3.94380.11 3.94398.11 3.94415.11 3.94415.31 3.94445.11 3.94445.31
0051 1 Lay shaft 3.94381.11 3.94399.11 3.94416.11 3.94416.31 3.94446.11 3.94446.31
0060 1 Gearbox 3.14036.11 3.14038.11 3.14043.11 3.14046.11
00701 Foot – horizontal 3.14051.11 3.14052.11 3.14053.11 3.14057.11
1 Foot – vertical 3.14054.12 3.14055.11 3.14056.11 3.14058.11
0120 1 Gearbox cover 3.14037.11 3.14039.11 3.14044.11 3.14047.11
0121 2 Bearing cover 3.94382.11 3.94400.11 3.94417.11 3.94557.11
0170 2 Spacer sleeve 3.94383.11 3.94401.11 – –
0172 2 Pressure flange 3.94384.11 3.94402.11 – –
0181 1 O-ring 0.2172.902 0.2172.906 0.2172.623 0.2172.632
01851 O-ring - vertical 0.2172.929 – – -–
1 O-ring 0.2172.541 0.2172.541 0.2172.541 0.2172.541
0190 1 Gear, set 3.01817.11 3.01820.11 3.01823.11 3.01827.11
0455 4 Cap nut 0.0205.784 0.0205.785 0.0205.787 0.0205.789
0456 4 Washer 0.0350.200 0.0350.201 0.0350.202 0.0350.203
0510 8 Screw 0.0251.428 0.0251.428 0.0251.202 0.0141.916
0515 2 Screw 0.0252.135 0.0252.137 0.0252.189 0.0252.191
052016 Screw 0.0251.890 – – –
12 Screw – 0.0251.899 – –
0525
3 Screw – horizontal 0.0141.082 0.0141.082 0.0141.082 -
2 Screw – horizontal – – – 0.0141.164
3 Screw – vertical 0.0251.234 0.0251.234 0.0251.234
2 Screw – vertical – – – 0.0251.280
05301 Screw – horizontal – – – 0.0141.246
1 Screw – vertical – – – 0.0251.325
0560 2 Pin 0.0490.102 0.0490.102 0.0490.103 0.0490.139
0565 2 Pin 0.0490.102 0.0490.102 0.0490.103 0.0490.139
0611 1 Key 0.0502.025 0.0502.036 0.0502.052 0.0502.089
0620 2 Locking nut 0.0243.005 0.0243.006 0.0243.009 0.0243.114.1
0630 2 Locking washer 0.0383.005 0.0383.006 0.0383.009 –
06512 Locking elements 0.0983.011 – – –
4 Locking elements – 0.0983.013 – –
0652 2 Locking assembly – – 0.0983.120 0.0983.129
0660 2 Circlip 3.94436.11 3.94442.11 3.81648.11 –
0700 2 Bearing 3.94437.11 3.94443.11 0.3431.669 0.3428.890
07012 Needle bearing 0.3425.459 0.3425.461 0.3425.467 –
2 Cylinder bearing – – – 0.3428.575
0850 1 Air breather 3.94438.11 3.94438.11 3.94438.11 3.94438.11
0855 1 Sealing ring 3.94962.11 3.94962.11 3.94962.11 3.94962.11
0860 1 Oil level glass 3.94439.11 3.94439.11 3.94439.11 3.94439.11
0865 1 Sealing ring 3.94962.11 3.94962.11 3.94962.11 3.94962.11
0870 1 Drain plug 0.0625.062 0.0625.062 0.0625.062 0.0625.063
0875 1 Sealing ring 0.2198.001 0.2198.001 0.2198.001 0.2189.460
0880 1 Lip seal 0.2234.918 0.2234.919 0.2234.920 0.2234.921
0885 2 Lip seal 0.2234.903 0.2234.909 0.2234.916 0.2234.917
0900 1 Name plate 4.0030.133 4.0030.132 4.0030.134 4.0030.134
0905 6 Rivet 0.0337.102 0.0337.102 0.0337.102 0.0337.102
09103 Plastic plug 3.94481.11 3.94481.11 3.94481.11 –
4 Plastic plug – – – 3.94562.11
0915 2 Plug 0.0602.017 0.0602.017 0.0602.017 0.0602.017
0920 1 Plastic plug – – – 3.94563.11
0936 2 Pin - 0.0490.641 0.0490.641 0.0490.641
1 Key protector 3.94665.11 3.94666.11 3.94667.11 3.94668.11
See 6.4.3 Service kit for gearbox
66
0070
07000700
A.0500.251 – IM-TL/15.00 EN (11/2011)
6.4.2 Feet options
Foot – Horizontal
Foot – Vertical for clamps and thread connections
Foot – Vertical for flanges
Pos. Nos. /pump
Description TL1 TL2 TL3 TL4
0070 1 Foot – horizontal 3.14051.11 3.14052.11 3.14053.11 3.14057.11
0070 1 Foot – vertical thread connection 3.14054.12 3.14055.11 3.14056.11 3.14058.11
0070 1 Foot – vertical flange connection 3.14054.14 3.14055.12 3.14056.12 3.14058.12
67
0171
0611
08800181
08550865
0885
08750185
A.0500.251 – IM-TL/15.00 EN (11/2011)
6.4.3 Service kit for gearbox
Pos.Nos./pump
Description TL1 TL2 TL3 TL4
Serivce kit for gearbox 3.01818.11 3.01821.11 3.01824.11 3.01826.11
0171 2 Shim 3.94520.11 3.94480.11 3.94521.11 3.94588.11
0181 1 O-ring 0.2172.902 0.2172.906 0.2172.623 0.2172.632
0185 1 O-ring 0.2172.929 0.2172.541 0.2172.541 0.2172.541
0611 1 Key 0.0502.025 0.0502.036 0.0502.052 0.0502.089
0855 1 Sealing ring 3.94962.11 3.94962.11 3.94962.11 3.94962.11
0865 1 Sealing ring 3.94962.11 3.94962.11 3.94962.11 3.94962.11
0875 1 Sealing ring 0.2198.001 0.2198.001 0.2198.001 0.2189.460
0880 1 Lip seal 0.2234.918 0.2234.919 0.2234.920 0.2234.921
0885 2 Lip seal 0.2234.903 0.2234.909 0.2234.916 0.2234.917
68
Single mechanical seal without flushing
A.0500.251 – IM-TL/15.00 EN (11/2011)
With flushingWithout flushing
Design
• Balanced mechanical seal.
• The stationary seal face is built into the seal cover, which is assembled in the rotor case from the front end, and is locked against rotation by the friction forces of two O-rings.
• The spring loaded rotating seal face is assembled into the driver which is locked on the shaft sleeve by means of set screws. The seal face is locked in the driver by means of lips and slots.
• Suitable for two directions of rotation.
• Small seal faces prevent solidifying of medium between faces (reduced seal faces so called ‘‘knife edge seals’’ are available on demand).
• Seal faces are mounted flexibly in O-rings.
• Seal faces are available in two different material combinations.
• Enclosed spring outside of pumped medium (can be flushed).
• Low pressure quench or flushing is possible if the pump is equipped with the flush cover including extra lip seals.
Technical data
Materials of mechanical seal faces: GW1 and GW2: SiC (Q1) - SiC (Q1 GB1 and GB2: SiC (Q1) - Carbon (B)
Materials of O-rings: Fluorocarbon FPM FPM-FDA (V1 i.e. certified food quality) EPDM (E) EPDM-FDA (E1 i.e.certified food quality) PTFE lined (T) Perfluor Chemraz® (C) * Perfluor Kalrez® (K)
Material of lip ring (optional): Nitrile rubber (P)
Maximum temperature: 200°C or up to the temperature limit of the pump
Maximum pressure: 23 bar or up to the operating pressure limit of the pump
Hydrostatic test pressure: 25 bar (for mechanical seal)
Maximum pressure of quench/flushing medium: 0.5 bar
7.0 Single mechanical seal
7.1 General information
* Kalrez is a registered trademark of DuPont Performance Elastomers.
69
0130 0090 0095 0101
A.0500.251 – IM-TL/15.00 EN (11/2011)
Pos. DescriptionEurope USA Pump type
DIN W.-nr. TL1 TL2 TL3 TL4
0090 Seal cover EN 10088-3 1.4404 AISI 316L x x x x
0095 Positioning plate EN 10088-3 1.4460 AISI 329(L) – x x –
0101 Flush cover EN 10088-3 1.4404 AISI 316L x x x x
0130 Shaft sleeve EN 10088-3 1.4460 AISI 329(L) x x x x
7.2 Machined parts – Seal assembly parts and flush covers
Reference catalogue: Stahlschlüssel 2001 (steel page 250-256 / stainless steel page 492-494)
70
01300095
05500090
01820540 0936
0930
0100
0931
A.0500.251 – IM-TL/15.00 EN (11/2011)
7.3 Seal options7.3.1 Single mechanical seal Note: Only FDA O-rings are approved for food applications
Common parts single mechanical seal
Single mechanical seal, complete
See 7.4 O-ring kit for single mechanical seal with/without flushing.
Pos.Nos./pump
Description TL1/0039TL1/0100 TL1/0139
TL2/0074TL2/0234 TL2/0301
TL3/0234TL3/0677 TL3/0953
TL4/0535TL4/2316 TL4/3497
0090 1 Seal cover 3.94393.11 3.94409.11 3.94424.11 3.94456.110095 1 Positioning plate – 3.94410.11 – 3.94425.11 – –0130 2 Shaft sleeve 3.94489.11 3.94394.11 3.94485.11 3.94411.11 3.94491.11 3.94426.11 3.94596.11 3.94458.11
0182 1 O-ring – 0.2173.940 – 0.2173.947 – –
05402 Cap nut 0.0205.782 – – –4 Cap nut – 0.0205.782 0.0205.782 –6 Cap nut – – – 0.0205.783
05502 Stud bolt 0.0012.900 3.94441.11 – – –4 Stud bolt – 0.0012.901 3.94441.11 0.0012.901 3.94441.11 –6 Stud bolt – – – 3.94561.11
0930 1 Protection plate 3.94913.11 3.94914.11 3.94915.11 3.94982.11 3.94916.11
0931 1 Screw 0.0138.940 0.0138.940 0.0138.986 0.0138.9740936 2 Pin – 0.0490.641 0.0490.641 0.0490.641
Common parts for single mechanical seal
Single mechanical seal, complete
Pos.Nos./pump
Description TL1 TL2 TL3 TL4
0100 2 Single mech seal Sic/Sic/FPM 3.94497.11 3.94500.11 3.94503.11 3.94556.110100 2 Single mech seal Sic/C/FPM 3.94497.14 3.94500.14 3.94503.14 3.94556.140100 2 Single mech seal Sic/Sic/EPDM 3.94497.12 3.94500.12 3.94503.12 3.94556.120100 2 Single mech seal Sic/C/EPDM 3.94497.15 3.94500.15 3.94503.15 3.94556.150100 2 Single mech seal Sic/Sic/PTFE – 3.94500.17 3.94503.17 3.94556.170100 2 Single mech seal Sic/C/PTFE – 3.94500.19 3.94503.19 3.94556.190100 2 Single mech seal Sic/Sic/Chemraz® 3.94497.13 3.94500.13 3.94503.13 3.94556.130100 2 Single mech seal Sic/C/Chemraz® 3.94497.16 3.94500.16 3.94503.16 3.94556.160100 2 * Single mech seal Sic/Sic/Kalrez® 3.94497.18 3.94500.18 3.94503.18 3.94556.180100 2 * Single mech seal Sic/C/Kalrez® 3.94497.20 3.94500.20 3.94503.20 3.94556.200100 2 Single mech seal Sic/Sic/FPM-FDA 3.94497.25 3.94500.25 3.94503.25 3.94556.250100 2 Single mech seal Sic/C/FPM-FDA 3.94497.26 3.94500.26 3.94503.26 3.94556.260100 2 Single mech seal Sic/Sic/EPDM-FDA 3.94497.21 3.94500.21 3.94503.21 3.94556.210100 2 Single mech seal Sic/C/EPDM-FDA 3.94497.22 3.94500.22 3.94503.22 3.94556.22
* Kalrez is a registered trademark of DuPont Performance Elastomers.
71
05530512
0101
0180 0890
0540
0881
00950130
01820090
093509330934
0561
0100 0936
A.0500.251 – IM-TL/15.00 EN (11/2011)
7.3.2 Single mechanical seal with quench/flush Note: Only FDA O-rings are approved for food applications
Single mechanical seal, complete
Common parts single mechanical seal
Single mechanical seal, complete
Pos.Nos./pump
Description TL1 TL2 TL3 TL4
0100 2 Single mech seal Sic/Sic/FPM 3.94497.11 3.94500.11 3.94503.11 3.94556.110100 2 Single mech seal Sic/C/FPM 3.94497.14 3.94500.14 3.94503.14 3.94556.140100 2 Single mech seal Sic/Sic/EPDM 3.94497.12 3.94500.12 3.94503.12 3.94556.120100 2 Single mech seal Sic/C/EPDM 3.94497.15 3.94500.15 3.94503.15 3.94556.150100 2 Single mech seal Sic/Sic/PTFE - 3.94500.17 3.94503.17 3.94556.170100 2 Single mech seal Sic/C/PTFE - 3.94500.19 3.94503.19 3.94556.190100 2 Single mech seal Sic/Sic/Chemraz® 3.94497.13 3.94500.13 3.94503.13 3.94556.130100 2 Single mech seal Sic/C/Chemraz® 3.94497.16 3.94500.16 3.94503.16 3.94556.160100 2 * Single mech seal Sic/Sic/Kalrez® 3.94497.18 3.94500.18 3.94503.18 3.94556.180100 2 * Single mech seal Sic/C/Kalrez® 3.94497.20 3.94500.20 3.94503.20 3.94556.200100 2 Single mech seal Sic/Sic/FPM-FDA 3.94497.25 3.94500.25 3.94503.25 3.94556.250100 2 Single mech seal Sic/C/FPM-FDA 3.94497.26 3.94500.26 3.94503.26 3.94556.260100 2 Single mech seal Sic/Sic/EPDM-FDA 3.94497.21 3.94500.21 3.94503.21 3.94556.210100 2 Single mech seal Sic/C/EPDM-FDA 3.94497.22 3.94500.22 3.94503.22 3.94556.22
Pos.Nos./pump
Description TL1/0039TL1/0100 TL1/0139
TL2/0074TL2/0234 TL2/0301
TL3/0234TL3/0677 TL3/0953
TL4/0535TL4/2316 TL4/3497
0090 1 Seal cover 3.94393.11 3.94409.11 3.94424.11 3.94456.110095 1 Positioning plate – 3.94410.11 – 3.94425.11 – –0101 1 Flush cover 3.94396.11 3.94413.11 3.94428.11 3.94460.120130 2 Shaft sleeve 3.94489.11 3.94394.11 3.94485.11 3.94411.11 3.94491.11 3.94426.11 3.94596.11 3.94458.110180 1 O-ring 0.2173.865 0.2173.940 0.2173.947 0.2173.866
0182 1 O-ring – 0.2173.940 – 0.2173.947 – –0512 4 Screw 0.0254.345 0.0254.346 0.0254.362 0.0254.362
05402 Cap nut 0.0205.782 – – –4 Cap nut – 0.0205.782 0.0205.782 –6 Cap nut – – – 0.0205.783
05532 Stud bolt 0.0012.905 0.0012.903 – – –4 Stud bolt – 0.0012.907 3.94487.11 0.0012.908 3.94488.11 –6 Stud bolt – – – 0.0012.604
0561 2 Pin 0.0490.084 0.0490.084 0.0490.084 0.0490.7540881 2 V-seal – – – 0.2230.4680890 2 Lip seal NBR/SS 0.2234.339 0.2234.497 0.2234.527 0.2234.3850933 2 Plug 0.0625.061 0.0625.061 0.0625.061 0.0625.0610934 2 Plastic plug 3.94615.11 3.94615.11 3.94615.11 3.94615.110935 2 Sealing ring 4A3483.113 4A3483.113 4A3483.113 4A3483.1130936 2 Pin – 0.0490.641 0.0490.641 0.0490.641
See 7.4 O-ring kit for single mechanical seal with/without quench/flush.
* Kalrez is a registered trademark of DuPont Performance Elastomers.
Common parts for single mechanical seal
72
0082b
0083
0082a
0082
0082a
0083
0082b
A.0500.251 – IM-TL/15.00 EN (11/2011)
7.4 O-ring kit for single mechanical seal with/without quench/flushNote: Only FDA O-rings are approved for food applications
(*) Pos. 0082b in O-ring kit PTFE is of FPM* Kalrez is a registered trademark of DuPont Performance Elastomers.
Pos.Nos./pump
Description TL1 TL2 TL3 TL4
O-ring kit FPM 3.01803.11 3.01804.11 3.01805.11 3.01806.11
0082 4 O-ring 0.2173.901 0.2173.929 0.2173.942 0.2173.967
0083 2 O-ring 0.2173.941 0.2173.925 0.2173.927 0.2173.968
O-ring kit EPDM 3.01803.12 3.01804.12 3.01805.12 3.01806.12
0082 4 O-ring 0.2173.051 0.2173.085 0.2173.251 0.2173.099
0083 2 O-ring 0.2173.043 0.2173.080 0.2173.086 0.2173.145
O-ring kit FPM-FDA 3.01803.18 3.01804.18 3.01805.18 3.01806.18
0082 4 O-ring 0.2174.884 0.2174.873 0.2174.888 0.2174.890
0083 2 O-ring 0.2174.885 0.2174.887 0.2174.889 0.2174.891
O-ring kit EPDM - FDA 3.01803.16 3.01804.16 3.01805.16 3.01806.16
0082 4 O-ring 0.2173.538 0.2173.545 0.2173.552 0.2173.559
0083 2 O-ring 0.2173.539 0.2173.546 0.2173.553 0.2173.560
O-ring kit PTFE – 3.01804.13 3.01805.13 3.01806.13
0082a 2 O-ring – 0.2173.815 0.2173.802 0.2173.817
0082b 2 O-ring (*) – 0.2173.929 0.2173.942 0.2173.967
0083 2 O-ring – 0.2173.961 0.2173.963 0.2173.818
O-ring kit CHEMRAZ® 3.01803.14 3.01804.14 3.01805.14 3.01806.14
0082 4 O-ring 0.2173.708 0.2173.710 0.2173.712 0.2173.729
0083 2 O-ring 0.2173.709 0.2173.711 0.2173.713 0.2173.730
* O-ring kit KALREZ® 3.01803.15 3.01804.15 3.01805.15 3.01806.15
0082 4 O-ring 0.2173.624 0.2173.616 0.2173.619 0.2173.622
0083 2 O-ring 0.2173.625 0.2173.617 0.2173.620 0.2173.626
73A.0500.251 – IM-TL/15.00 EN (11/2011)
8.0 Double mechanical seal8.1 General
Design• Balanced mechanical seal.
• The product side stationary seal face is built into the seal cover which is assembled in the rotor case from the front end and the atmopheric side stationary seal face is built into the flush cover.
• Both stationary seal faces are locked against rotation by the friction forces of O-rings.
• The spring loaded rotating seal faces are assembled into the driver which is locked on the shaft sleeve by means of set screws. The seal faces are locked in the driver by means of lips and slots.
• Suitable for two directions of rotation.
• Small seal faces prevents solidifying of medium between faces (reduced seal faces, so called ‘‘knife edge seals’’ are available on demand).
• Quenched of flushed, pressurized or unpressurized.
Technical data Materials: DW2: SiC (Q1) - SiC (Q1) and
SiC (Q1) - Carbon (B) atmospheric side
DB2: SiC (Q1) - Carbon (B) and SiC (Q1) - Carbon (B) atmospheric side
Materials of O-rings: Fluorocarbon FPM FPM-FDA (V1 i.e. certified food quality)
EPDM (E) EPDM-FDA (E1 i.e.certified food quality) PTFE lined (T) Perfluor Chemraz® (C) * Perfluor Kalrez® (K)
Temperature: 200°C or up to the temperature limit of the pump
Maximum pressure: 16 bar or up to the operating pressure limit of the pump
Hydrostatic test pressure: 25 bar (for mechanical seal)
Maximum pressure of quench/flushing medium: 16 bar
Pressurised seal: The pressure of quench/flush medium should be 1 bar/10% higher than the process pressure
Unpressurised seal: Pressure is lower than or equal to the processing pressure
* Kalrez is a registered trademark of DuPont Performance Elastomers.
74
0130 0090 0095 0101
A.0500.251 – IM-TL/15.00 EN (11/2011)
8.2 Machined parts – Seal assembly parts and flush covers
Pos. DescriptionEurope
USAPump type
DIN W.-nr. TL1 TL2 TL3 TL4
0090 Seal cover EN 100808-3 1.4404 AISI 316L x x x x
0095 Positioning plate EN 10088-3 1.4460 AISI 329(L) – x x –
0101 Flush cover EN 10088-3 1.4404 AISI 316L x x x x
0130 Shaft sleeve EN 10088-3 1.4460 AISI 329(L) x x x x
75
0512
0561
Double seal M74-D60
00950130
0090
0180
0182
0553
0101
0540
TL2/TL3H gh pressure
0936
093309350934
0100
0512
0561
Double seal M74-D60
00950130
0090
0180
0182
0553
0101
0540
TL2/TL3H gh pressure
0936
093309350934
0100
A.0500.251 – IM-TL/15.00 EN (11/2011)
8.3 Seal options8.3.1 Double mechanical seal M74-D60 – TL2/0074 and TL3/0234
Common parts double mechanical seal M74-D60
Double mechanical seal M74-D60, complete
Pos.Nos./pump
Description TL2/0074 TL3/0234
0090 1 Seal cover 3.94409.12 3.94424.120095 1 Positioning plate 3.94410.12 3.94425.120101 1 Flush cover 3.94413.11 3.94428.110130 2 Shaft sleeve 3.94485.11 3.94491.110180 1 O-ring 0.2173.940 0.2173.9470182 1 O-ring 0.2173.940 0.2173.9470512 4 Screw 0.0254.346 0.0254.3620540 4 Cap nut 0.0205.782 0.0205.7820553 4 Stud bolt 0.0012.907 0.0012.9080561 2 Pin 0.0490.084 0.0490.0840933 2 Plug 0.0625.061 0.0625.0610934 2 Plastic plug 3.94615.11 3.94615.110935 2 Sealing ring 4A3483.113 4A3483.1130936 2 Pin 0.0490.641 0.0490.641
Pos.Nos./pump
Description TL2/0074 TL3/0234
0100 2 Double mech seal C/Sic/C/FPM 3.94509.14 3.94513.140100 2 Double mech seal Sic/Sic/C/FPM 3.94509.11 3.94513.110100 2 Double mech seal C/Sic/C/EPDM 3.94509.15 3.94513.150100 2 Double mech seal Sic/Sic/C/EPDM 3.94509.12 3.94513.120100 2 Double mech seal C/Sic/C/PTFE 3.94509.19 3.94513.190100 2 Double mech seal Sic/Sic/C/PTFE 3.94509.17 3.94513.170100 2 Double mech seal C/Sic/C/Chemraz® 3.94509.16 3.94513.160100 2 Double mech seal Sic/Sic/C/Chemraz® 3.94509.13 3.94513.130100 2 * Double mech seal C/Sic/C/Kalrez® 3.94509.20 3.94513.200100 2 * Double mech seal Sic/Sic/C/Kalrez® 3.94509.18 3.94513.180100 2 Double mech seal C/Sic/C/FPM-FDA 3.94509.26 3.94513.260100 2 Double mech seal Sic/Sic/C/FPM-FDA 3.94509.25 3.94513.250100 2 Double mech seal C/Sic/C/EPDM-FDA 3.94509.21 3.94513.210100 2 Double mech seal Sic/Sic/C/EPDM-FDA 3.94509.22 3.94513.22
See 8.4 O-ring kit for double mechanical seal
* Kalrez is a registered trademark of DuPont Performance Elastomers.
Note: Only FDA O-rings are approved for food applications
76
0512
0561
Double seal M74-D60
00950130
0090
0180
0182
0553
0101
0540
TL2/TL3H gh pressure
0936
093309350934
0100
01800130 0561 0553
0090 05120101
Double seal M74-D60
0540
TL4High ,low and medium pressure
0936
093309350934
0100
A.0500.251 – IM-TL/15.00 EN (11/2011)
8.3.2 Double mechanical seal M74-D60 – TL4/0535, TL4/2316 and TL4/3497
Common parts double mechanical seal M74-D60
Pos.Nos./pump
Description TL4
0100 2 Double mech seal C/Sic/C/FPM 3.94564.140100 2 Double mech seal Sic/Sic/C/FPM 3.94564.110100 2 Double mech seal C/Sic/C/EPDM 3.94564.150100 2 Double mech seal Sic/Sic/C/EPDM 3.94564.120100 2 Double mech seal C/Sic/C/PTFE 3.94564.190100 2 Double mech seal Sic/Sic/C/PTFE 3.94564.170100 2 Double mech seal C/Sic/C/Chemraz® 3.94564.160100 2 Double mech seal Sic/Sic/C/Chemraz® 3.94564.130100 2 * Double mech seal C/Sic/C/Kalrez® 3.94564.200100 2 * Double mech seal Sic/Sic/C/Kalrez® 3.94564.180100 2 Double mech seal C/Sic/C/FPM-FDA 3.94564.260100 2 Double mech seal Sic/Sic/C/FPM-FDA 3.94564.250100 2 Double mech seal C/Sic/C/EPDM-FDA 3.94564.210100 2 Double mech seal Sic/Sic/C/EPDM-FDA 3.94564.22
Pos.Nos./pump
Description TL4/0535TL4/2316 TL4/3497
0090 1 Seal cover 3.94456.11 3.94456.110101 1 Flush cover 3.94460.11 3.94460.110130 2 Shaft sleeve 3.94596.11 3.94458.110180 1 O-ring 0.2173.866 0.2173.8660512 4 Screw 0.0254.362 0.0254.3620540 6 Cap nut 0.0205.783 0.0205.7830553 6 Stud bolt 0.0012.604 0.0012.6040561 2 Pin 0.0490.102 0.0490.7540933 2 Plug 0.0625.061 0.0625.0610934 2 Plastic plug 3.94615.11 3.94615.110935 2 Sealing ring 4A3483.113 4A3483.1130936 2 Pin 0.0490.641 0.0490.641
Double mechanical seal M74-D60, complete
See 8.4 O-ring kit for double mechanical seal
* Kalrez is a registered trademark of DuPont Performance Elastomers.
Note: Only FDA O-rings are approved for food applications
77
0130 055305120180
0090 0182 0561 0101 0936
0540
TL2/TL3Low and medium pressure
093309350934
Double seal M74-D61
0100
0130 055305120180
0090 0182 0561 0101 0936
0540
TL2/TL3Low and medium pressure
093309350934
Double seal M74-D61
0100
A.0500.251 – IM-TL/15.00 EN (11/2011)
8.3.3 Double mechanical seal M74-D61 – TL2/0234, TL2/0301, TL3/0677, TL3/0953
Common parts double mechanical seal M74-D61
Double mechanical seal M74-D61, complete
See 8.4 O-ring kit for double mechanical seal
Pos.Nos./pump
DescriptionTL2/0234 TL2/0301
TL3/0677 TL3/0953
0100 2 Double mech seal C/Sic/C/FPM 3.94924.11 3.94926.110100 2 Double mech seal Sic/Sic/C/FPM 3.94925.11 3.94927.110100 2 Double mech seal C/Sic/C/EPDM 3.94925.15 3.94927.150100 2 Double mech seal Sic/Sic/C/EPDM 3.94925.12 3.94927.120100 2 Double mech seal C/Sic/C/PTFE 3.94925.19 3.94927.190100 2 Double mech seal Sic/Sic/C/PTFE 3.94925.17 3.94927.170100 2 Double mech seal C/Sic/C/Chemraz® 3.94925.16 3.94927.160100 2 Double mech seal Sic/Sic/C/Chemraz® 3.94925.13 3.94927.130100 2 * Double mech seal C/Sic/C/Kalrez® 3.94925.20 3.94927.200100 2 * Double mech seal Sic/Sic/C/Kalrez® 3.94925.18 3.94927.180100 2 Double mech seal C/Sic/C/FPM.FDA 3.94924.26 3.94926.260100 2 Double mech seal Sic/Sic/C/FPM-FDA 3.94925.25 3.94927.250100 2 Double mech seal C/Sic/C/EPDM-FDA 3.94925.21 3.94927.210100 2 Double mech seal Sic/Sic/C/EPDM-FDA 3.94925.22 3.94927.22
Pos.Nos./pump
DescriptionTL2/0234 TL2/0301
TL3/0677 TL3/0953
0090 1 Seal cover 3.94409.13 3.94424.130101 1 Flush cover 3.94413.12 3.94428.120130 2 Shaft sleeve 3.94411.11 3.94426.110180 1 O-ring 0.2173.940 0.2173.9470182 2 O-ring 0.2173.859 0.2173.9210512 4 Screw 0.0254.346 0.0254.3620540 4 Cap nut 0.0205.782 0.0205.7820553 4 Stud bolt 3.94487.11 3.94488.110561 2 Pin 0.0490.084 0.0490.0840933 2 Plug 0.0625.061 0.0625.0610934 2 Plastic plug 3.94615.11 3.94615.110935 2 Sealing ring 4A3483.113 4A3483.1130936 2 Pin 0.0490.641 0.0490.641
* Kalrez is a registered trademark of DuPont Performance Elastomers.
Note: Only FDA O-rings are approved for food applications
78
0082b
0083
0085
0086
0082a
0082 0083 0085 0086
0082a 0082b
A.0500.251 – IM-TL/15.00 EN (11/2011)
8.4 O-ring kit for double mechanical seal
Pos.Nos./pump
Description TL2/0074TL2/0234 TL2/0301
TL3/0234TL3/0677 TL3/0953
TL4
O-ring kit FPM 3.01812.11 3.01812.21 3.01813.11 3.01813.21 3.01837.110082 4 O-ring 0.2173.929 0.2173.861 0.2173.942 0.2173.863 0.2173.9670083 2 O-ring 0.2173.925 0.2173.862 0.2173.927 0.2173.864 0.2173.9680085 2 O-ring 0.2173.925 0.2173.862 0.2173.927 0.2173.864 0.2173.9680086 2 O-ring 0.2173.944 0.2173.939 0.2173.945 0.2173.995 0.2173.969O-ring kit EPDM 3.01812.12 3.01812.22 3.01813.12 3.01813.22 3.01837.120082 4 O-ring 0.2173.085 0.2173.311 0.2173.251 0.2173.090 0.2173.0990083 2 O-ring 0.2173.080 0.2173.046 0.2173.086 0.2173.056 0.2173.1450085 2 O-ring 0.2173.080 0.2173.046 0.2173.086 0.2173.056 0.2173.1450086 2 O-ring 0.2173.252 0.2173.083 0.2173.371 0.2173.088 0.2173.149O-ring kit FPM-FDA 3.01812.18 3.01812.28 3.01813.18 3.01813.28 3.01837.180082 4 O-ring 0.2174.873 0.2174.893 0.2174.888 0.2174.896 0.2174.8900083 2 O-ring 0.2174.887 0.2174.894 0.2174.889 0.2174.897 0.2174.8910085 2 O-ring 0.2174.887 0.2174.894 0.2174.889 0.2174.897 0.2174.8910086 2 O-ring 0.2174.892 0.2174.895 0.2174.899 0.2174.898 0.2174.875O-ring kit EPDM - FDA 3.01812.16 3.01812.26 3.01813.16 3.01813.26 3.01837.160082 4 O-ring 0.2173.545 0.2173.561 0.2173.552 0.2173.563 0.2173.5590083 2 O-ring 0.2173.546 0.2173.562 0.2173.553 0.2173.564 0.2173.5600085 2 O-ring 0.2173.546 0.2173.562 0.2173.553 0.2173.564 0.2173.5600086 2 O-ring 0.2173.548 0.2173.508 0.2173.555 0.2173.512 0.2173.510O-ring kit PTFE 3.01812.13 3.01812.23 3.01813.13 3.01813.23 3.01837.130082a 2 O-ring 0.2173.815 0.2173.837 0.2173.802 0.2173.802 0.2173.8170082b 2 O-ring (*) 0.2173.929 0.2173.861 0.2173.942 0.2173.863 0.2173.9670083 2 O-ring 0.2173.961 0.2173.838 0.2173.963 0.2173.839 0.2173.8180085 2 O-ring (*) 0.2173.925 0.2173.862 0.273.927 0.273.864 0.2173.9680086 2 O-ring (*) 0.2173.944 0.2173.939 0.2173.945 0.2173.995 0.2173.969O-ring kit CHEMRAZ® 3.01812.14 3.01812.24 3.01813.14 3.01813.24 3.01837.140082 4 O-ring 0.2173.710 0.2173.766 0.2173.712 0.2173.768 0.2173.7290083 2 O-ring 0.2173.711 0.2173.767 0.2173.713 0.2173.769 0.2173.7300085 2 O-ring 0.2173.711 0.2173.767 0.2173.713 0.2173.769 0.2173.7300086 2 O-ring 0.2173.715 0.2173.725 0.2173.716 0.2173.746 0.2173.731* O-ring kit KALREZ® 3.01812.15 3.01812.25 3.01813.15 3.01813.25 3.01837.150082 4 O-ring 0.2173.616 0.2173.657 0.2173.619 0.2173.659 0.2173.6220083 2 O-ring 0.2173.617 0.2173.658 0.2173.620 0.2173.660 0.2173.6260085 2 O-ring 0.2173.617 0.2173.658 0.2173.620 0.2173.660 0.2173.6260086 2 O-ring 0.2173.618 0.2173.608 0.2173.621 0.2173.637 0.2173.623
(*) Pos. 0082b, 0085, 0086 in O-ring kit PTFE are of FPM* Kalrez is a registered trademark of DuPont Performance Elastomers.
Note: Only FDA O-rings are approved for food applications
79A.0500.251 – IM-TL/15.00 EN (11/2011)
9.0 Single and Double O-ring seal
9.1 General information
Design• The removable O-ring holder (containing the O-rings) is built into the seal cover, which
is assembled in the rotor case from the front end, and locked by the friction forces of O-rings.
• The O-rings are running on the rotating shaft sleeve which is locked on the shaft.
• Seal faces on the shaft sleeve coated with tungsten carbide.
• Suitable for two directions of rotation
• Double arrangement quenched or flushed, pressurised or unpressurised.
Technical dataMaterials of O-rings: Fluorocarbon FPM FPM-FDA (V1 i.e. certified food quality) EPDM (E) EPDM-FDA (E1 i.e.certified food quality) PTFE lined (T) Perfluor Chemraz® (C) * Perfluor Kalrez® (K)
Temperature: Up to the temperature limit of the pump
Maximum pressure: Up to the operating pressure limit of the pump
Maximum pressure of quench/flushing medium: 0.5 bar
Circumferential speed: Less than 0.5 m/s
Single Double
* Kalrez is a registered trademark of DuPont Performance Elastomers.
80
0082 0183 0097
0130 0550 0182 0930 0931
0090 0095 0540 0936
A.0500.251 – IM-TL/15.00 EN (11/2011)
9.2 Seal options9.2.1 Single O-ring seal
Single O-ring seal, complete
Common parts single O-ring seal
Pos.Nos./pump
Description TL1/0039TL1/0100 TL1/0139
TL2/0074TL2/0234 TL2/0301
TL3/0234TL3/0677 TL3/0953
TL4/0535TL4/2316 TL4/3497
0082 4 O-ring see 9.3.1 O-ring kit for single O-ring seal 0090 1 Seal cover 3.94393.11 3.94409.11 3.94424.11 3.94456.110095 1 Positioning plate – 3.94410.11 – 3.94425.11 – –0097 2 Support ring 3.94672.11 3.94673.11 3.94674.11 3.94675.110130 2 Shaft sleeve 3.94490.12 3.94395.12 3.94486.12 3.94412.12 3.94492.12 3.94427.12 3.94597.12 3.94459.120182 1 O-ring – 0.2173.940 – 0.2173.947 –0183 2 O-ring see 9.3.1 O-ring kit for single O-ring seal
05402 Cap nut 0.0205.782 – – –4 Cap nut – 0.0205.782 0.0205.782 –6 Cap nut – – – 0.0205.783
05502 Stud bolt 0.0012.900 3.94441.11 – – –4 Stud bolt – 0.0012.901 3.94441.11 0.0012.901 3.94441.11 –6 Stud bolt – – – 3.94561.11
0930 1 Protection plate 3.94913.11 3.94914.11 3.94915.11 3.94982.11 3.94916.110931 1 Screw 0.0138.940 0.0138.940 0.0138.986 0.0138.9740936 2 Pin – 0.0490.641 0.0490.641 0.0490.641
81
0082 0183 0097 0130 0095 0180 0890 0936
0090 0182 0101 0881
0561 0935 0512 0540
0934 0933 0553
A.0500.251 – IM-TL/15.00 EN (11/2011)
9.2.2 Double O-ring seal with quench/flush
Double O-ring seal, complete
Common parts double O-ring seal
Pos.Nos./pump
Description TL1/0039TL1/0100 TL1/0139
TL2/0074TL2/0234 TL2/0301
TL3/0234TL3/0677 TL3/0953
TL4/0535TL4/2316 TL4/3497
0082 4 O-ring see 9.3.2 O-ring kit for double O-ring seal 0090 1 Seal cover 3.94393.11 3.94409.11 3.94424.11 3.94456.110095 1 Positioning plate – 3.94410.11 – 3.94425.11 – –0097 2 Support ring 3.94672.11 3.94673.11 3.94674.11 3.94675.110101 1 Flush cover 3.94396.11 3.94413.11 3.94428.11 3.94460.120130 2 Shaft sleeve 3.94490.12 3.94395.12 3.94486.12 3.94412.12 3.94492.12 3.94427.12 3.94597.12 3.94459.120180 1 O-ring 0.2173.865 0.2173.940 0.2173.947 0.2173.8660182 1 O-ring – 0.2173.940 – 0.2173.947 – –0183 4 O-ring see 9.3.2 O-ring kit for double O-ring seal 0512 4 Screw 0.0254.345 0.0254.346 0.0254.362 0.0254.362
05402 Cap nut 0.0205.782 – – –4 Cap nut – 0.0205.782 0.0205.782 –6 Cap nut – – – 0.0205.783
05532 Stud bolt 0.0012.905 0.0012.903 – – –4 Stud bolt – 0.0012.907 3.94487.11 0.0012.908 3.94488.11 –6 Stud bolt – – – 0.0012.604
0561 2 Pin 0.0490.084 0.0490.084 0.0490.084 0.0490.1020881 2 V-seal – – – 0.2230.4680890 2 Lip seal NBR/SS 0.2234.339 0.2234.497 0.2234.527 0.2234.3850933 2 Plug 0.0625.061 0.0625.061 0.0625.061 0.0625.0610934 2 Plastic plug 3.94615.11 3.94615.11 3.94615.11 3.94615.110935 2 Sealing ring 4A3483.113 4A3483.113 4A3483.113 4A3483.1130936 2 Pin – 0.0490.641 0.0490.641 0.0490.641
82
0183
00820082
0183
0082
A.0500.251 – IM-TL/15.00 EN (11/2011)
9.3 O-ring kit9.3.1 O-ring kit for single O-ring seal Note: Only FDA O-rings are approved for food applications
Pos.Nos./pump
Description TL1 TL2 TL3 TL4
O-ring kit FPM 3.01932.11 3.01933.11 3.01934.11 3.01935.110082 4 O-ring 0.2173.901 0.2173.929 0.2173.942 0.2173.9670183 2 O-ring 3.92159.11 0.2173.925 0.2173.909 0.2173.968O-ring kit EPDM 3.01932.12 3.01933.12 3.01934.12 3.01935.120082 4 O-ring 0.2173.051 0.2173.085 0.2173.251 0.2173.0990183 2 O-ring 0.2173.077 0.2173.080 0.2173.139 0.2173.145O-ring kit FPM-FDA 3.01932.18 3.01933.18 3.01934.18 3.01935.180082 4 O-ring 0.2174.884 0.2174.873 0.2174.888 0.2174.8900183 2 O-ring 0.2174.874 0.2174.887 0.2174.872 0.2174.891O-ring kit EPDM - FDA 3.01932.16 3.01933.16 3.01934.16 3.01935.160082 4 O-ring 0.2173.538 0.2173.545 0.2173.552 0.2173.5590183 2 O-ring 0.2173.541 0.2173.546 0.2173.556 0.2173.560O-ring kit PTFE 3.01932.13 3.01933.13 3.01934.13 3.01935.130082 4 O-ring 0.2173.951 0.2173.815 0.2173.802 0.2173.8170183 2 O-ring 0.2173.830 0.2173.831 0.2173.832 0.2173.818O-ring kit CHEMRAZ® 3.01932.14 3.01933.14 3.01934.14 3.01935.140082 4 O-ring 0.2173.708 0.2173.710 0.2173.712 0.2173.7290183 2 O-ring 0.2173.764 0.2173.711 0.2173.765 0.2173.730* O-ring kit KALREZ® 3.01932.15 3.01933.15 3.01934.15 3.01935.150082 4 O-ring 0.2173.624 0.2173.616 0.2173.619 0.2173.6220183 2 O-ring 0.2173.655 0.2173.617 0.2173.656 0.2173.626
* Kalrez is a registered trademark of DuPont Performance Elastomers.
83
0183
0082
0082
0183
0082
A.0500.251 – IM-TL/15.00 EN (11/2011)
9.3.2 O-ring kit for double O-ring seal Note: Only FDA O-rings are approved for food applications
Pos.Nos./pump
Description TL1 TL2 TL3 TL4
O-ring kit FPM 3.01936.11 3.01937.11 3.01938.11 3.01939.110082 4 O-ring 0.2173.901 0.2173.929 0.2173.942 0.2173.9670183 4 O-ring 3.92159.11 0.2173.925 0.2173.909 0.2173.968O-ring kit EPDM 3.01936.12 3.01937.12 3.01938.12 3.01939.120082 4 O-ring 0.2173.051 0.2173.085 0.2173.251 0.2173.0990183 4 O-ring 0.2173.077 0.2173.080 0.2173.139 0.2173.145O-ring kit FPM-FDA 3.01936.18 3.01937.18 3.01938.18 3.01939.180082 4 O-ring 0.2174.884 0.2174.873 0.2174.888 0.2174.8900183 4 O-ring 0.2174.874 0.2174.887 0.2174.872 0.2174.891O-ring kit EPDM - FDA 3.01932.16 3.01933.16 3.01934.16 3.01935.160082 4 O-ring 0.2173.538 0.2173.545 0.2173.552 0.2173.5590183 4 O-ring 0.2173.541 0.2173.546 0.2173.556 0.2173.560O-ring kit PTFE 3.01936.13 3.01937.13 3.01938.13 3.01939.130082 4 O-ring 0.2173.951 0.2173.815 0.2173.802 0.2173.8170183 4 O-ring 0.2173.830 0.2173.831 0.2173.832 0.2173.818O-ring kit CHEMRAZ® 3.01936.14 3.01937.14 3.01938.14 3.01939.140082 4 O-ring 0.2173.708 0.2173.710 0.2173.712 0.2173.7290183 4 O-ring 0.2173.764 0.2173.711 0.2173.765 0.2173.730* O-ring kit KALREZ® 3.01936.15 3.01937.15 3.01938.15 3.01939.150082 4 O-ring 0.2173.624 0.2173.616 0.2173.619 0.2173.6220183 4 O-ring 0.2173.655 0.2173.617 0.2173.656 0.2173.62
* Kalrez is a registered trademark of DuPont Performance Elastomers.
84 A.0500.251 – IM-TL/15.00 EN (11/2011)
10.0 Hard lip seal
10.1 General
Design• The removable support ring (containing the lip seal) is built into the seal cover, which
is assembled in the rotor case from the front end, and locked by the friction force of an O-ring.
• The lip seal is running on the rotating shaft sleeve which is locked on the shaft.
• Seal faces on the shaft sleeve are coated with tungsten carbide.
• Suitable for two directions of rotation.
• Low pressure quench or flushing possible if the pump is equipped with the flush cover including extra lip seals.
Technical dataMaterials of O-rings: Fluorocarbon FPM EPDM (E) PTFE lined (T) Perfluor Chemraz® (C) * Perfluor Kalrez® (K)
Temperature: Up to the temperature limit of the pump
Maximum pressure: 10 bar
Maximum pressure of quench/flushing medium: 0.5 bar
Unpressurised seal: Pressure is lower than or equal to the process pressure
* Kalrez is a registered trademark of DuPont Performance Elastomers.
85
0895
00840096
0095
0182
0130
0090 0936
0930
0550 0540
0931
A.0500.251 – IM-TL/15.00 EN (11/2011)
10.2 Seal options10.2.1 Hard lip seal – TL1, TL2, TL3
Hard lip seal, complete
Common parts hard lip seal
Pos.Nos./pump
Description TL1/0039TL1/0100 TL1/0139
TL2/0074TL2/0234 TL2/0301
TL3/0234TL3/0677 TL3/0953
0084 2 O-ring see 10.3 O-ring kit for hard lip seal with/without flushing0090 1 Seal cover 3.94393.11 3.94409.11 3.94424.140095 1 Positioning plate – 3.94410.11 – 3.94425.11 –0096 2 Support ring for lip seal 3.94493.11 3.94484.11 –0130 2 Shaft sleeve 3.94490.12 3.94395.12 3.94486.12 3.94412.12 3.94492.12 3.94427.120182 1 O-ring – 0.2173.940 – 0.2173.947 –
05402 Cap nut 0.0205.782 – –4 Cap nut – 0.0205.782 0.0205.782
05502 Stud bolt 0.0012.900 3.94441.11 – –4 Stud bolt – 0.0012.901 3.94441.11 0.0012.901 3.94441.11
0895 2 Lip seal see 10.3 O-ring kit for hard lip seal with/without flushing0930 1 Protection plate 3.94913.11 3.94914.11 3.94915.110931 1 Screw 0.0138.940 0.0138.940 0.0138.9860936 2 Pin – 0.0490.641 0.0490.641
86
TL4
0130 0090 09310930
0550 0540
0936
0084
0895
0082
0096
TL4
A.0500.251 – IM-TL/15.00 EN (11/2011)
10.2.2 Hard lip seal – TL4
Pos.Nos./pump
Description TL4/0535TL4/2316 TL4/3497
0082 2 O-ring see 10.3 O-ring kit for hard lip seal with/without flushing0084 2 O-ring
0090 1 Seal cover 3.94456.11
0096 2 Support ring for lip seal 3.94593.11
0130 2 Shaft sleeve 3.94597.12 3.94459.12
0540 6 Cap nut 0.0205.783
0550 6 Stud bolt 3.94561.11
0895 2 Lip sealsee 10.3 O-ring kit for hard lip seal
with/without flushing
0930 1 Protection plate 3.94982.11 3.94916.11
0931 1 Screw 0.0138.974
0936 2 Pin 0.0490.641
Hard lip seal, complete
Common parts hard lip seal
87
00950895
008400960182
0130
0090
0553
0561
0512
0935
0933 0540
0934
0180
0890
0101 0936
A.0500.251 – IM-TL/15.00 EN (11/2011)
Pos.Nos./pump
Description TL1/0039TL1/0100 TL1/0139
TL2/0074TL2/0234 TL2/0301
TL3/0677 TL3/0234
TL3/0953
0084 2 O-ring see 10.3 O-ring kit for hard lip seal with/without flushing0090 1 Seal cover 3.94393.11 3.94409.11 3.94424.140095 1 Positioning plate – 3.94410.11 – 3.94425.11 –0096 2 Support ring for lip-seal 3.94493.11 3.94484.11 –0101 1 Flush cover 3.94396.11 3.94413.11 3.94428.110130 2 Shaft sleeve 3.94490.12 3.94395.12 3.94486.12 3.94412.12 3.94492.12 3.94427.120180 1 O-ring 0.2173.865 0.2173.940 0.2173.9470182 1 O-ring – 0.2173.940 – 0.2173.947 –0512 4 Screw 0.0254.345 0.0254.346 0.0254.362
05402 Cap nut 0.0205.782 – –4 Cap nut – 0.0205.782 0.0205.782
05532 Stud bolt 0.0012.905 0.0012.903 – –4 Stud bolt – 0.0012.907 3.94487.11 0.0012.908 3.94488.11
0561 2 Pin 0.0490.084 0.0490.084 0.0490.0840890 2 Lip seal 0.2234.339 0.2234.497 0.2234.5270895 2 Lip seal see 10.3 O-ring kit for hard lip seal with/without flushing0933 2 Plug 0.0625.061 0.0625.061 0.0625.0610934 2 Plastic plug 3.94615.11 3.94615.11 3.94615.110935 2 Sealing ring 4A3483.113 4A3483.113 4A3483.1130936 2 Pin – 0.0490.641 0.0490.641
10.2.3 Hard lip seal with quench/flush – TL1, TL2, TL3
Hard lip seal with quench/flush, complete
Common parts hard lip seal
88
TL4
0084
0895
0130
0090
0082
0096
TL 4
0130
0101 0890
0934 0936
0881
0561 0935 0553 0540
0512 0933
A.0500.251 – IM-TL/15.00 EN (11/2011)
Pos.Nos./pump
Description TL4/0535TL4/2316 TL4/3497
0082 2 O-ring see 10.3 O-ring kit for hard lip seal with/without flushing0084 2 O-ring
0090 1 Seal cover 3.94456.11
0096 2 Support ring for lip-seal 3.94593.11
0101 1 Flush cover 3.94460.12
0130 2 Shaft sleeve 3.94597.12 3.94459.12
0180 1 O-ring 0.2173.866
0512 4 Screw 0.0254.362
0540 6 Cap nut 0.0205.783
0553 6 Stud bolt 0.0012.604
0561 2 Pin 0.0490.754
0881 2 V-seal 0.2230.468
0890 2 Lip seal 0.2234.385
0895 2 Lip sealsee 10.3 O-ring kit for hard lip seal
with/without flushing
0933 2 Plug 0.0625.061
0934 2 Plastic plug 3.94615.11
0935 2 Sealing ring 4A3483.113
0936 2 Pin 0.0490.641
Hard lip seal with quench/flush, complete
Common parts hard lip seal with quench/flush
10.2.4 Hard lip seal with quench/flush – TL4
89
00840895
0082
0895
0084
0895
0084
0895
0082
0084
00840895
0082
0895
0084TL4
TL1, TL2, TL3
A.0500.251 – IM-TL/15.00 EN (11/2011)
10.3 O-ring kit for hard lip seal with/without quench/flush
Pos.Nos./pump
Description TL4
O-ring kit FPM 3.01931.110082 2 O-ring 0.2173.9670084 2 O-ring 0.2173.9670895 2 Lip seal 3.94589.11O-ring kit EPDM 3.01931.120082 2 O-ring 0.2173.0990084 2 O-ring 0.2173.0990895 2 Lip seal 3.94589.11O-ring kit PTFE 3.01931.130082 2 O-ring 0.2173.8170084 2 O-ring (*) 0.2173.9670895 2 Lip seal 3.94589.11
(*) Pos. 0084 in O-ring kit PTFE is of FPM
* Spare part kits for pumps manufactured before 2004.
Pos.Nos./Pump
Description TL1 TL2 TL3* TL3
O-ring kit FPM 3.01928.11 3.01929.11 3.01930.11 –
0084 2 O-ring 0.2173.904 3.90223.11 0.2173.990 –
0895 2 Lip seal 3.94517.11 3.94518.11 3.94519.11 3.95723.11
O-ring kit EPDM 3.01928.12 3.01929.12 3.01930.12 –
0084 2 O-ring 0.2173.240 0.2173.055 0.2173.243 –
0895 2 Lip seal 3.94517.11 3.94518.11 3.94519.11 3.95723.11
90
A
A
A.0500.251 – IM-TL/15.00 EN (11/2011)
11.0 Quench and Flush connectionsSeveral connection types for circulation of quench or flush on the shaft sealing are possible according to Seal plans 52, 53 and 54.
These connections are applied on TopLobe with single mechanical seal, double mechanical seal, O-ring seal and hard lip seal types with quench or flush options.
They can be connected in different ways. You will find the schemes on the next pages regarding seal plans.
Circulation happens by pressure difference or thermosyphon working (i.e. difference in temperature of the barrier liquid). Direction of flow is reversible but to facilitate venting, we advise to bring the outlet on top level.
Maximum differential pressure over seal faces (pressure of quench/flush medium):
• Single mechanical seal, O-ring seal, Hard lip seal The maximum pressure of the quench/flush medium is 0.5 bar due to the limitations of the applied lip seal.
• Double mechanical seal, pressurised The barrier liquid should have a pressure of at least 1 bar/10% higher than the differential pressure of the pump.
If you need more information, please contact your local distributor.
11.1 Seal plans11.1.1 Pump connections in horizontal position
A) Seal plan 54 (circulation) or plan 62 (through flow)
Use a pressurised external barrier fluid reservoir or system to clean fluid to the seal chamber.
Provide circulation by an external pressure system or pump.
Section A-A
91
A
A
A
A
A.0500.251 – IM-TL/15.00 EN (11/2011)
B) Seal plan 52 – Unpressurised double seal
Use an external reservoir to provide unpressurised buffer fluid
Reservoir
Valve
Section A-A
Section A-A
C) Seal plan 53 – Pressurised double seal
Use a pressurised external reservoir to supply clean fluid to the seal chamber.
Reservoir pressure is greater than the sealing chamber process pressure.
Reservoir
Externalpressure
92
A
A
A
A
A.0500.251 – IM-TL/15.00 EN (11/2011)
B) Seal plan 52 – Unpressurised double seal
Use an external reservoir to provide unpressurised buffer fluid
Reservoir
Valve
11.1.2 Pump connections in vertical positionA) Seal plan 54 (circulation) or plan 64 (through flow)
Use a pressurised external barrier fluid reservoir or system to clean fluid to the seal chamber.
Circulation is to be provided by an external pressure system or pump.
Section A-A
Section A-A
93
A
A
A.0500.251 – IM-TL/15.00 EN (11/2011)
C) Seal plan 53 – Pressurised double seal
Use a pressurised external barrier fluid reservoir to supply clean fluid to the seal chamber.
Reservoir pressure is greater than the sealing chamber process pressure.
Reservoir
Externalpressure
Section A-A
94 A.0500.251 – IM-TL/15.00 EN (11/2011)
12.1 Heating and cooling jacketsAll TopLobe models can be supplied with pump covers with channels for heating or cooling.
The reason for having this possibility is mainly used for bringing the medium inside the rotor case on temperature before starting up the pump. This option is not meant to heat, cool or maintain the temperature of the pumped medium in the process. The pre-heating or cooling of the pump cover should be integrated in the heating or cooling system of the installation.
The pump cover with or without safety relief valve for heating/cooling is provided with two holes drilled straight through the cover. The heat is transferred to the rotor case via the contact faces between cover and rotor case.
The heating/cooling channels in the pump cover together with the flush holes of the shaft seal are positioned in such a way that the required thermal effects on the built-on safety relief valve, rotor case and shaft seal are the best.
The pressure rating at the ports of the pump cover for heating/cooling is 10 bar and should not be exceeded without contacting your supplier for advice.
For start-up and shut-down procedures where heating/cooling devices are employed, the heating/cooling medium should circulate 20-45 minutes before start-up and/or shut-down. When CIP/SIP cycle is employed as a part of the process, the heating/cooling medium should continue to circulate during the cleaning/sterilizing process.
12.2 Built-on safety relief valvesTopLobe pumps can be supplied with following types of built-on safety relief valves.
Heating/cooling jacket
TL1 TL2 TL3 TL4
Spring loaded x x x –
Spring loaded - air lifted for CIP/SIP function x x x –
Air loaded - air lifted for process adjustment with CIP/SIP function x x x x
12.0 Valves
Note! For the TL4 models only the air loaded version with CIP/SIP valve function can be supplied.
95A.0500.251 – IM-TL/15.00 EN (11/2011)
Following pressure limitations are applicable for TopLobe pumps
Pump typeMax differential
pressure[bar]
Max operating pressure
[bar]
TL1/0039 22 25
TL1/0100 12 15
TL1/0139 7 10
TL2/0074 22 25
TL2/0234 12 15
TL2/0301 7 10
TL3/0234 22 25
TL3/0677 12 15
TL3/0953 7 10
TL4/0535 22 25
TL4/2316 12 15
TL4/3497 7 10
12.2.1 General description Significant for all SPX safety relief valves is that the valve head is built directly into the pump cover. In this way the valve is of the highest hygienic design and easy to clean or check. The head has been designed to maximize the flow passage section and to minimize pressure losses as well as allow particles to pass through. When the valve head is opening, it creates a short cut between discharge and suction side of the pump. On the valves equipped with air-lift function the valve head can be opened to create a by-pass to reach the necessary flow-passage for CIP or SIP cleaning.
The valve head is covering part of the discharge side as well as the suction side of the pump. It is also covering most of the front face of the rotors. The pressure distribution in this area is depending on the properties of the pumped media. The differential pressure on the pump is influencing the load that is acting on the valve head. The set value of the spring or air pressure is balancing the valve head. The properties of the pumped media, the design of the application as well as the process influences the load acting on the valve head. These are the main reasons why the valve setting should not be done in the factory. The opening pressure of the safety relief valve is set to 0 bar from factory. The setting of the valve should be carried out on site under proposed duty conditions for which the pump and valve were selected.
When the differential pressure of the pump becomes higher than the valve settings, the valve head will open. Due to the large size of the valve head, the full capacity of the pump can pass through the valve from the discharge back to the suction side. With the correct setting it is not possible to overpressure the pump under no circumstances.
If the pump is working against a closed discharge valve the medium circulates inside the pump via the relief valve. The hydraulic power and the friction losses are transformed to thermal energy and the temperature of this relatively small volume of circulating fluid will rise if the pump continues to operate for an extended period of time. In severe cases this may result in temperatures exceeding the operating limits of the pump or in vaporization of the fluid, both of which should be avoided. For these reasons, the valve should only be used as a safety relief valve and not as flow control valve.
When the valve is activated an unforeseen operating condition has occurred. The reason for the system pressure increase should be investigated and corrected, as continuous operation of the pump with the valve open is not allowable and may cause severe damage to the pump.
Under no circumstances attempt should be made to dismantle a safety relief valve when the spring pressure is not relieved, when it is still connected to a pressurized air supply or is mounted on the pump while the pump is operating. Serious personal injury or pump damage may occur.
96
A
B
B A
BA
A.0500.251 – IM-TL/15.00 EN (11/2011)
Fig 3: Safety relief valve - Spring loaded completely opened
Fig. 3 is showing the design of the spring loaded safety relief valve completely opened.
The medium pressure inside the rotor case has forced the valve head (A) completely to the left against the force of the spring.
12.2.2 Safety relief valve - Spring Loaded12.2.2.1 Spring Loaded
Fig. 1 and 2 are showing the design of the spring loaded safety relief valve. The valve head (A) is subjected to the fluid pressure in the rotor case on one side and by spring force on the other side. The spring is acting directly on the valve head.
By turning the spring adjusting screw (B) the compression of the spring is modified and the opening pressure of the safety relief valve can be adjusted.
To turn the spring adjusting screw (B), the retainer tool delivered with the pump must be used.
Fig. 1 shows the safety relief valve completely closed. The valve head (A) is in line with the front face of the pump cover. The valve has been adjusted by compressing the spring via the spring adjusting screw (B).
Fig 1: Safety relief valve – Spring loaded completely closed
Fig. 2 shows the valve partly opened. The medium pressure inside the rotor case has forced the valve head (A) to the left against the force of the spring.
Fig 2: Safety relief valve – Spring loaded partly opened
12.2.2.2 Spring loaded completely opened
Pump cover
Pump cover
Pump cover
97
BA
C
D
C
D
B
A
A.0500.251 – IM-TL/15.00 EN (11/2011)
12.2.3 Safety relief valve - Spring loaded - air lifted12.2.3.1 Spring loaded - air lifted
Fig. 4 and 5 are showing the design of the spring loaded - air lifted safety relief valve. The valve head (A) is subjected to the fluid pressure in the rotor case on one side and by spring force on the other side. The spring is not acting directly on the valve head (A) but via piston (C) and spacer sleeve (D).
By turning the spring adjusting screw (B) the compression of the spring is modified and the opening pressure of the safety relief valve can be adjusted. To turn the spring adjusting screw (B), the retainer tool delivered with the pump must be used.
Fig. 4 shows the safety relief valve completely closed. The valve head (A) is in line with the front face of the pump cover and the CIP/SIP valve cylinder is completely relieved.
The setting pressure of the valve has been adjusted by compressing the spring via the spring adjusting screw (B).
Fig 4: Safety relief valve – Spring loaded - air lifted completely closed
Fig. 5 shows the valve partly opened. The medium pressure inside the rotor case has forced the valve head (A) to the left against the force of the spring via the distance sleeve and the CIP/SIP piston valve.
Fig 5: Safety relief valve – Spring loaded - air lifted partly opened
Pump cover
Pump cover
98
B
Aii
C
D
A.0500.251 – IM-TL/15.00 EN (11/2011)
12.2.4 Setting and operating – Spring loaded and spring loaded - air lifted Since the opening pressure of the relief valve is depending on the viscosity of the pumped medium, the setting of the relief valve should be done while the pump is fitted in the installation. To be able to do so there must be a pressure gauge installed as close as possible to the pump discharge port and a valve must be foreseen in the discharge line to adjust the discharge pressure.
To adjust the set-pressure of valve do as follows:
• Remove the plastic plug at the front of the valve
• Use the retainer tool to turn the adjusting screw counter-clockwise until the spring is completely relieved
• Connect the pressure gauge to the discharge line and open the discharge valve completely
• Start the pump
• Use the retainer tool to turn the adjusting screw clockwise until the maximum spring setting is reached (the valve is blocked). While doing this, check on the pressure gauge that the pressure does not rise above the maximum allowable pressure of the pump.
Plastic plug
Retainer tool
Valve adjusting
Pressure gauge
Valve
12.2.3.2 Spring loaded - air lifted with CIP/SIP valve function
Fig 6: Safety relief valve – Spring loaded - air lifted with CIP/SIP valve function
Fig. 6 shows the valve completely opened. The pressure inside chamber (ii) has forced the piston (C) and the valve head (A) which is connected to it to the left against the force of the spring.
To operate the CIP/SIP valve function chamber (ii) must be pressurized with 6 bar, which is the normal pressure of air supply systems. This way it is ensured that the valve is opening far enough for CIP/SIP cleaning purposes.
The pressure is acting on the CIP/SIP valve piston (C). By doing that the CIP/SIP valve piston (C) and the valve head (A) which is connected to it via the spacer sleeve (D) will move against the force of the spring.
To resume the safety relief valve function, cylinder (ii) must be completely relieved.
Pump cover
99A.0500.251 – IM-TL/15.00 EN (11/2011)
Plastic plug
Retainer tool
The values in the table are based on the assumption that the suction pressure is between 0.5 and 1 bar absolute. Please note that the values are a rough adjustment.
TL1 TL2 TL3
Opening pressure pd
(bar)
Rotateadjusting screw
X turns
Rotateadjusting screw
X turns
Rotateadjusting screw
X turns
0 0.0 0.0 0.01 0.6 1.4 2.72 1.3 2.8 5.33 1.9 4.2 8.04 2.6 5.6 10.65 3.2 6.9 13.36 3.9 8.3 16.07 4.5 9.7 18.68 5.2 11.1 21.39 5.8 12.5 23.9
10 6.5 13.9 26.611 7.1 15.3 29.312 7.8 16.7 31.913 8.4 18.0 34.614 9.0 19.4 37.215 9.7 20.8 39.916 10.3 22.2 42.517 11.0 23.6 45.218 11.6 25.0 47.919 12.3 26.4 50.520 12.9 27.8 53.221 13.6 29.1 55.822 14.2 30.5 58.5
• Close the discharge valve slowly until the desired set-pressure is reached
• Use the retainer tool to turn the adjusting screw of the valve slowly counter clockwise until the discharge pressure is starting to drop away
• Check the proper setting of the valve by slowly opening and closing the discharge valve. The set-pressure of the relief valve can be increased by turning the adjusting screw clockwise and decreased by turning the adjusting screw counter-clockwise
• After setting the relief valve, open the discharge valve completely
Note: If the valve is not adjusted according to the method described above the correct valve setting cannot be guaranteed and the pump might be damaged because of too high discharge pressure.
If there is no possibility to connect a pressure gauge or there is no discharge valve foreseen in the installation, the valve can be pre-adjusted according to the procedure described below.
• Remove the plastic plug at the front of the valve
• Use the retainer tool to turn the adjusting screw counter-clockwise until the spring is completely relieved
• Turn the spring adjusting screw X number of turns clockwise in function of the desired opening pressure (see table below)
100
A
iB ii
i
B
A
i
A
B
A.0500.251 – IM-TL/15.00 EN (11/2011)
12.2.5 Safety relief valve – Air loaded - air lifted12.2.5.1 Air loaded
Fig 7 and 8 are showing the design of the air loaded - air lifted safety relief valve.
The pressure in the control chamber (i) is keeping the valve head in balance with the medium pressure. If the force created by the medium pressure becomes higher than the force created by the control pressure acting on piston (B), the valve head (A) starts to move and the valve opens.
While only part of the valve head (A) is loaded by the discharge pressure, the biggest portion of the valve head (A) is covered by the rotors (front clearances) or loaded by the relatively low suction pressure, the control pressure is working on the full surface of the control piston. That implies that the control pressure has to be set much lower than the opening pressure of the valve.Indications of control pressures can be found on page 102. See table.
Fig. 9 is showing the design of the air loaded - air lifted safety relief valve with CIP/SIP valve function.
To operate the CIP/SIP valve function chamber (ii) must be pressurized.
The pressure is acting on the rear face of the piston (B). By doing that, valve head (A) and piston (B) which are connected to each other, will move against the force created by the control pressure inside chamber (i).
If the control pressure is maintained during the CIP/SIP valve operation, the pressure needed to open the valve must be about 0.5 bar higher than the control pressure in chamber (i). To resume the safety relief valve function, chamber (ii) must be completely relieved.
Fig 9: Safety relief valve – Air loaded - air lifted with CIP/SIP valve function
12.2.5.2 Air loaded - air lifted with CIP/SIP valve function
Fig 7: Safety relief valve – Air loaded - air lifted closed
Fig 8: Safety relief valve – Air loaded - air lifted partly opened
Pump cover
Pump cover
Pump cover
101A.0500.251 – IM-TL/15.00 EN (11/2011)
12.2.6 Setting and operating – Air loaded - air lifted safety relief valvesTo adjust the set-pressure of valve do as follows:
• Make sure that the pressure in the control pressure cylinder and the air lift chamber is completely relieved.
• Connect the pressure gauge to the discharge line and open the discharge valve completely
• Start the pump
• Operate the air adjusting valve to slowly increase the control pressure of the valve until the maximum control pressure is reached. While doing this check that the discharge pressure is not rising above the maximum allowable pressure of the pump
• Close the discharge valve slowly until the desired set pressure is reached
• Operate the adjusting valve slowly to decrease the control pressure of the valve until the discharge pressure is starting to drop away
• Check the proper setting of the valve by slowly opening and closing the discharge valve. The set-pressure of the relief valve can be increased by increasing the control pressure and decreased by decreasing the control pressure
• After setting the relief valve, open the discharge valve completely
If the valve is not adjusted according to the method described above the correct valve setting cannot be guaranteed and the pump might be damaged because of too high discharge pressure.
If there is no possibility to connect a pressure gauge in the discharge line or there is no discharge valve foreseen in the installation, the valve setting might be approached by adjusting the control pressure to the values indicated in the table below.
Pressure gauge
Valve
102 A.0500.251 – IM-TL/15.00 EN (11/2011)
TL1/0039 TL1/0100 TL1/0139 TL2/0074 TL2/0234 TL2/0301
Opening pressure
(bar)Control pressure (bar)
1 0.2 0.3 0.3 0.2 0.3 0.32 0.4 0.6 0.6 0.4 0.6 0.63 0.6 0.9 0.9 0.7 0.9 0.94 0.8 1.2 1.2 0.9 1.2 1.25 1.0 1.5 1.5 1.1 1.5 1.56 1.2 1.8 1.8 1.3 1.8 1.87 1.4 2.1 2.1 1.5 2.1 2.18 1.6 2.3 – 1.8 2.3 –9 1.7 2.6 – 2.0 2.6 –
10 1.9 2.9 – 2.2 2.9 –11 2.1 3.2 – 2.4 3.2 –12 2.3 3.5 – 2.6 3.5 –13 2.5 – – 2.9 – –14 2.7 – – 3.1 – –15 2.9 – – 3.3 – –16 3.1 – – 3.5 – –17 3.3 – – 3.7 – –18 3.5 – – 4.0 – –19 3.7 – – 4.2 – –20 3.9 – – 4.4 – –21 4.1 – – 4.6 – –22 4.3 – – 4.8 – –
Note: Since the control pressure is depending on the nature of the pumped medium the values given in the table below must be interpreted as guidelines.
TL3/0234 TL3/0677 TL3/0953 TL4/0535 TL4/2316 TL4/3497
Openingpressure
(bar) Control pressure (bar)
1 0.2 0.4 0.4 0.4 0.2 0.32 0.4 0.7 0.7 0.5 0.7 0.73 0.7 1.1 1.1 0.7 1.1 1.14 0.9 1.4 1.4 0.9 1.4 1.45 1.1 1.8 1.8 1.2 1.8 1.86 1.3 2.1 2.1 1.4 2.2 2.27 1.5 2.5 2.5 1.6 2.6 2.68 1.7 2.8 – 1.9 2.9 –9 2.0 3.2 – 2.1 3.3 –
10 2.2 3.5 – 2.4 3.7 –11 2.4 3.9 – 2.6 4.0 –12 2.6 4.2 – 2.8 4.4 –13 2.8 – – 3.1 – –14 3.0 – – 3.3 – –15 3.3 – – 3.5 – –16 3.5 – – 3.8 – –17 3.7 – – 4.0 – –18 3.9 – – 4.2 – –19 4.1 – – 4.5 – –20 4.3 – – 4.7 – –21 4.6 – – 4.9 – –22 4.8 – – 5.2 – –
TL1, TL2 – Control pressure
TL3, TL4 – Control pressure
103
SPRING-LOADED
0523
0921
0922
0220
0240
0251
0563
0543
0750
0175
0200
0807
0562
0032
0563
A.0500.251 – IM-TL/15.00 EN (11/2011)
13.0 Disassembly/Assembly
13.1 Spring loaded valves
13.1.1 Disassembly1. Remove plastic plug (0922).
2. Release the spring (0750) by turning the spring adjusting screw (0251) counter clockwise using the retainer tool.
Warning3. Remove screws (0523) by loosening them all one full turn.
If the cylinder (0220) stays in place (tap slowly with a plastic hammer on the cylinder) the spring (0750) is fully released and the screws can be removed.
If the cylinder does not stay in place, first make sure that the spring will be released.
4. All components can now be removed from the cylinder (0220) and from the pump cover (0032).
13.1.2 Assembly1. Screw the spring adjusting screw (0251) fully into the spring adjusting plate (0543).
2. If disassembled, place the two pins (0563) in the spring adjusting plate (0543) and in the valve head (0200) respectively. Place the pin (0562) in the same way in the pump cover (0032).
3. Place the O-ring (0807) on the outside of the valve head (0200) and push the valve head with O-ring into the pump cover (0032).
4. Put all components in place and tighten the screws (0523).
Retainer tool
104
SPRING-LOADED / AIR-LIFTED
0523
0220
0921
09220240
0251
0543
0563
0750
0522
0230
0810
0811
0260
0210
0808
0809
0175
0200
0807
0562
0032
0563
A.0500.251 – IM-TL/15.00 EN (11/2011)
13.2 Spring loaded - air lifted valves
13.2.1 Disassembly1. Remove plastic plug (0922).
2. Release the spring (0750) by turning the spring adjusting screw (0251) counter clockwise using the retainer tool.
Warning3. Remove screws (0523) by loosening them all one full turn.
If the cylinder (0220) stays in place (tap slowly with a plastic hammer on the cylinder) the spring (0750) is fully released and the screws can be removed.
If the cylinder does not stay in place, first make sure that the spring will be released.
4. All components can now be removed from the cylinder (0220) and from the pump cover (0032).
13.2.2 Assembly1. Screw the spring adjusting screw (0251) fully into the spring adjusting plate (0543).
2. If disassembled place the two pins (0563) in the spring adjusting plate (0543) and in the piston (0230) respectively. Place the pin (0562) in the same way in the pump cover (0032).
3. Place the piston (0230) together with the valve head (0200) by using the spacer sleeve (0260) with the O-rings (0811). Before tightening the screw (0522) ensure that the baseplate (0210) with O-ring (0808) is placed over the spacer sleeve (0260).
4. Put all components in place and tighten the screws (0523).
Retainer tool
105
0523
0220
0810
0522 0230
0811
0260
0808
0809
0175
0200
0807
0562
0032
09230924
0210
AIR-LOADED / AIR-LIFTED
0523
0220
0240
0810
05220230
0811
0260
0210
0808
0809
0175
0200
0807
0562
00320810TL1, TL2, TL3
TL4
AIR-LOADED / AIR-LIFTED
0523
0220
0240
0810
05220230
0811
0260
0210
0808
0809
0175
0200
0807
0562
00320810
A.0500.251 – IM-TL/15.00 EN (11/2011)
13.3 Air loaded - air lifted valves
13.3.1 Disassembly1. Remove screws (0523).
2. All parts can now be removed from the cylinder (0220).
13.3.2 Assembly1. If disassembled place the pin (0562) into the pump cover (0032).
2. Screw the piston (0230) together with the valve head (0200) by using the spacer sleeve (0260) with the O-rings (0811). Before tightening the screw (0522) ensure that the baseplate (0210) with O-ring (0808) is placed over the spacer sleeve (0260).
3. Put all components in place and tighten the screws (0523).
106
bbtb
bc
bd
bbtb
bbtc
bc
bd
bbbe
tc
bc
bd
bbbe
tc
bbbe
bftc
bc
bd
bbbe
bftc
bbtc
bg
bg
4xG1/8"
4xG1/8"
1xG1/8"
4xG1/8"
4xG1/8"
2xG1/8"
4xG1/8"
1xG1/8"
2xG1/8"
A.0500.251 – IM-TL/15.00 EN (11/2011)
14.0 Dimensional drawings and weights
14.1 Safety relief valves with heating/cooling jacket Dimension table, see next page
Horizontal mounting Vertical mountingJacket Jacket
Relief valve – Spring loaded with jacket Relief valve – Spring loaded with jacket
Relief valve – Spring loaded – air lifted with jacket Relief valve – Spring loaded – air lifted with jacket
Relief valve – Air loaded – air lifted with jacket Relief valve – Air loaded – air lifted with jacket
107A.0500.251 – IM-TL/15.00 EN (11/2011)
Dimensions – Safety relief valves with heating/cooling jacketDimensions in mm
Pump type bb bc bd be bf bg tb tc
TL1/0039 jacket 240 43 143 – – 42 261 –
spring loaded 240 43 143 – – 42 – 363
spring loaded - air lifted 240 43 143 278.5 – 42 – 410
air loaded - air lifted 240 43 143 278.5 300 42 – 328
TL1/0100 jacket 240 43 143 – – 42 261 –
spring loaded 240 43 143 – – 42 – 363
spring loaded - air lifted 240 43 143 278.5 – 42 – 410
air loaded - air lifted 240 43 143 278.5 300 42 – 328
TL1/0139 jacket 252 43 143 – – 42 273 –
spring loaded 252 43 143 – – 42 – 375
spring loaded - air lifted 252 43 143 290.5 – 42 – 422
air loaded - air lifted 252 43 143 290.5 312 42 – 340
TL2/0074 jacket 288 48 170 – – 48 313 –
spring loaded 288 48 170 – – 48 – 432
spring loaded - air lifted 288 48 170 336.5 – 48 – 489
air loaded - air lifted 288 48 170 336.5 363 48 – 392
TL2/0234 jacket 288 48 170 – – 48 313 –
spring loaded 288 48 170 – – 48 – 432
spring loaded - air lifted 288 48 170 336.5 – 48 – 489
air loaded - air lifted 288 48 170 336.5 363 48 – 392
TL2/0301 jacket 300 48 170 – – 48 325 –
spring loaded 300 48 170 – – 48 – 444
spring loaded - air lifted 300 48 170 348.5 – 48 – 501
air loaded - air lifted 300 48 170 348.5 375 48 – 404
TL3/0234 jacket 372 64.5 242.5 – – 77 401 –
spring loaded 372 64.5 242.5 – – 77 – 585
spring loaded - air lifted 372 64.5 242.5 439.5 – 77 – 657
air loaded - air lifted 372 64.5 242.5 439.5 474 77 – 512
TL3/0677 jacket 372 64.5 242.5 – – 77 401 –
spring loaded 372 64.5 242.5 – – 77 – 585
spring loaded - air lifted 372 64.5 242.5 439.5 – 77 – 657
air loaded - air lifted 372 64.5 242.5 439.5 474 77 – 512
TL3/0953 jacket 394 64.5 242.5 – – 77 423 –
spring loaded 394 64.5 242.5 – – 77 – 607
spring loaded - air lifted 394 64.5 242.5 461.5 – 77 – 679
air loaded - air lifted 394 64.5 242.5 461.5 496 77 – 534
TL4/0535 jacket 568 72.5 302.5 – – 101 608 –
air loaded - air lifted 568 72.5 302.5 649 694 101 – 727
TL4/2316 jacket 568 72.5 302.5 – – 101 608 –
air loaded - air lifted 568 72.5 302.5 649 694 101 – 727
TL4/3497 jacket 620 72.5 302.5 – – 101 660 –
air loaded - air lifted 620 72.5 302.5 701 746 101 – 795
14.2 Weights safety relief valve
Pump typeType of safety relief valve
Spring loaded Spring loaded - air lifted Air loaded - air lifted
TL1 5 5.5 4.5
TL2 11 12 10
TL3 27 30 25
TL4 – – 62
All weights in daN, mass is kg
108
SPRING-LOADED
0523
0921
0922
0220
0240
0251
0563
0543
0750
0175
0200
0807
0562
0032
0563
A.0500.251 – IM-TL/15.00 EN (11/2011)
15.0 Sectional drawings and parts lists
15.1 Pump cover with safety relief valve – spring loaded
Pos.Nos. /pump
Description TL1/0039TL1/0100TL1/0139
TL2/0074TL2/0234TL2/0301
TL3/0234TL3/0677TL3/0953
Safety relief valve, complete 3.01859.11 3.01859.21 3.01860.11 3.01860.21 3.01862.11 3.01862.21Safety relief valve with jacket, complete 3.01859.51 3.01859.61 3.01860.51 3.01860.61 3.01862.51 3.01862.61
00321 Pump cover valve 3.94622.11 3.94623.11 3.94598.11 3.94599.11 3.94637.11 3.94638.111 Pump cover valve for heating 3.94622.12 3.94623.12 3.94598.12 3.94599.12 3.94637.12 3.94638.12
0175 1 Support ring spring 3.94627.11 3.94604.11 3.94642.110200 1 Valve head 3.94624.11 3.94625.11 3.94601.11 3.94602.11 3.94639.11 3.94640.110220 1 Cylinder 3.94869.11 3.94606.11 3.94644.110240 1 Cover spring loaded 3.94633.11 3.94610.11 3.94648.110251 1 Spring adjusting screw 3.94613.21 3.94613.21 3.94651.210523 4 Screw 0.0252.160 0.0252.212 0.0252.3160543 1 Spring adjusting plate 3.94636.11 3.94614.11 3.94652.110562 1 Pin 0.0490.657 0.0490.659 0.0490.6610563 2 Pin 0.0490.653 0.0490.653 0.0490.6540750 1 Spring 3.94635.11 3.94612.11 3.94650.11
0807 1 O-ringO-ring kit for hydraulic part with safety relief valve,
see 6.0 – Sectional drawings and parts list0921 2 Plastic plug 3.94615.11 3.94615.11 3.94615.110922 1 Plastic plug 3.96075.11 3.96075.11 3.96076.11
1 Retainer tool 3.94550.31 3.94550.31 3.94551.31
Retainer tool
109
SPRING-LOADED / AIR-LIFTED
0523
0220
0921
09220240
0251
0543
0563
0750
0522
0230
0810
0811
0260
0210
0808
0809
0175
0200
0807
0562
0032
0563
A.0500.251 – IM-TL/15.00 EN (11/2011)
15.2 Pump cover with safety relief valve – spring loaded - air lifted
Pos.Nos./pump
Description TL1/0039TL1/0100 TL1/0139
TL2/0074TL2/0234 TL2/0301
TL3/0234TL3/0677 TL3/0953
Safety relief valve, complete 3.01859.12 3.01859.22 3.01860.12 3.01860.22 3.01862.12 3.01862.22Safety relief valve with jacket, complete 3.01859.52 3.01859.62 3.01860.52 3.01860.62 3.01862.52 3.01862.62
00321 Pump cover valve 3.94622.11 3.94623.11 3.94598.11 3.94599.11 3.94637.11 3.94638.111 Pump cover valve for heating 3.94622.12 3.94623.12 3.94598.12 3.94599.12 3.94637.12 3.94638.12
0175 1 Support ring 3.94626.11 3.94603.11 3.94641.110200 1 Valve head 3.94624.11 3.94625.11 3.94601.11 3.94602.11 3.94639.11 3.94640.110210 1 Baseplate 3.94628.11 3.94605.11 3.94643.110220 1 Cylinder 3.94869.11 3.94606.11 3.94644.110230 1 Piston 3.94630.11 3.94607.11 3.94645.110240 1 Cover spring loaded - air lifted 3.94631.11 3.94608.11 3.94646.110251 1 Spring adjusting screw 3.94613.21 3.94613.21 3.94651.210260 1 Spacer sleeve 3.94634.11 3.94611.11 3.94649.110522 1 Screw 0.0252.249 0.0252.303 0.0252.4100523 4 Screw 0.0252.160 0.0252.212 0.0252.3160543 1 Spring adjusting plate 3.94636.11 3.94614.11 3.94652.110562 1 Pin 0.0490.657 0.0490.659 0.0490.6610563 2 Pin 0.0490.653 0.0490.653 0.0490.6540750 1 Spring 3.94635.11 3.94612.11 3.94650.11
0807 1 O-ringO-ring kit for hydraulic part with safety relief valve,
see 6.0 – Sectional drawings and parts list0808 1 O-ring 0.2173.934 3.91864.11 3.92159.110809 1 O-ring 0.2173.967 0.2173.971 0.2173.9860810 1 O-ring 0.2173.917 0.2173.972 0.2173.9780811 2 O-ring 0.2173.975 3.91860.11 0.2173.9790921 1 Plastic plug 3.94615.11 3.94615.11 3.94615.110922 1 Plastic plug 3.96075.11 3.96075.11 3.96076.11
1 Retainer tool 3.94550.31 3.94550.31 3.94551.31
Retainer tool
110
AIR-LOADED / AIR-LIFTED
0523
0220
0240
0810
05220230
0811
0260
0210
0808
0809
0175
0200
0807
0562
00320810
A.0500.251 – IM-TL/15.00 EN (11/2011)
15.3 Pump cover with safety relief valve – air loaded - air lifted – TL1, TL2, TL3
Pos.Nos./pump
DescriptionTL1/0100 TL1/0039
TL1/0139TL2/0234 TL2/0074
TL2/0301TL3/0677 TL3/0234
TL3/0953
Safety relief valve, complete 3.01859.13 3.01859.23 3.01860.13 3.01860.23 3.01862.13 3.01862.23Safety relief valve with jacket, complete 3.01859.53 3.01859.63 3.01860.53 3.01860.63 3.01862.53 3.01862.63
00321 Pump cover valve 3.94622.11 3.94623.11 3.94598.11 3.94599.11 3.94637.11 3.94638.111 Pump cover valve for heating 3.94622.12 3.94623.12 3.94598.12 3.94599.12 3.94637.12 3.94638.12
0175 1 Support ring 3.94626.11 3.94603.11 3.94641.110200 1 Valve head 3.94624.11 3.94625.11 3.94601.11 3.94602.11 3.94639.11 3.94640.110210 1 Baseplate 3.94628.11 3.94605.11 3.94643.110220 1 Cylinder 3.94869.11 3.94606.11 3.94644.110230 1 Piston 3.94630.11 3.94607.11 3.94645.110240 1 Cover air loaded - air lifted 3.94632.11 3.94609.11 3.94647.110260 1 Spacer 3.94634.11 3.94611.11 3.94649.110522 1 Screw 0.0252.249 0.0252.303 0.0252.4100523 4 Screw 0.0252.160 0.0252.212 0.0252.3160562 1 Guiding pin 0.0490.657 0.0490.659 0.0490.661
0807 1 O-ringO-ring kit for hydraulic part with safety relief valve,
see 6.0 – Sectional drawings and parts list0808 1 O-ring 0.2173.934 3.91864.11 3.92159.110809 1 O-ring 0.2173.967 0.2173.971 0.2173.9860810 2 O-ring 0.2173.917 0.2173.972 0.2173.9780811 2 O-ring 0.2173.975 3.91860.11 0.2173.979
111
0523
0220
0810
0522 0230
0811
0260
0808
0809
0175
0200
0807
0562
0032
09230924
0210
A.0500.251 – IM-TL/15.00 EN (11/2011)
15.4 Pump cover with safety relief valve – air loaded - air lifted – TL4
Pos.Nos./pump
Description TL4/0535TL4/2316 TL4/3497
Safety relief valve, complete 3.01863.13 3.01863.23Safety relief valve with jacket, complete 3.01863.53 3.01863.63
00321 Pump cover valve 3.94653.11 3.94654.111 Pump cover valve for heating 3.94653.12 3.94654.12
0175 1 Support ring 3.94657.110200 1 Valve head 3.94655.11 3.94656.110210 1 Baseplate 3.94658.110220 1 Cylinder 3.94659.110230 1 Piston 3.94660.110260 1 Spacer 3.94661.110522 1 Screw 0.0252.4740523 4 Screw 0.0252.4240562 1 Guiding pin 0.0490.676
0807 1 O-ringO-ring kit for hydraulic part
with safety relief valve, see 6.0 – Sectional drawings
0808 1 O-ring 0.2173.9820809 1 O-ring 0.2173.9830810 2 O-ring 0.2173.9840811 2 O-ring 0.2173.9850923 1 Plug 3.94918.110924 1 Sealing ring 3.94919.11
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ISSUED11/2011 A.0500.251 EN
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